+ 
+ 
+ + + Timeline of quantum computing and communication + +
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+
+
+
+
+
+ (Redirected from
+
+ History of quantum computing
+
+ )
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+ Chip constructed by D-Wave Systems Inc. designed to operate as a 128-qubit superconducting adiabatic quantum optimization processor, mounted in a sample holder (2009)
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+ 
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+
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+ IBM Q System One
+
+ (2019), the first circuit-based commercial quantum computer
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+ 
+
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+ Simplified scale mode of a quantum computing demonstrator housed in two 19-inch racks with major components labeled
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+ + + + + +|
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+ 
+
+
+ |
+
+
+ The
+
+ inclusion of certain items in this list is
+
+ disputed
+
+
+ . Please see the relevant discussion on the
+
+ talk page
+
+ .
+
+
+ (
+
+ December 2024
+
+ )
+
+
+
+ |
+
+
+ + +
+ 
+ + This is a + + timeline of + + quantum computing + + and + + communication + + + . +
+ + + +
+
+
+
+
+ + 1930s +
+ + + [ + + + + edit + + + + ] + + +
+
+ + 1936 +
+ + + [ + + + + edit + + + + ] + + +-
+
- + + Erwin Schrödinger + + publishes a theorem setting the basis for + + quantum steering + + and the limits of + + quantum state purification + + . The theorem remained uncredited even after multiple expansions and rediscoveries. + + + + [ + + 1 + + ] + + + + + + + [ + + 2 + + ] + + + + + + + [ + + a + + ] + + + + +
+
+ + 1960s +
+ + + [ + + + + edit + + + + ] + + +
+
+ + + + 1968/69/70 +
+ + + [ + + + + edit + + + + ] + + ++ + Stephen Wiesner + + invents + + conjugate coding + + . + + + + [ + + 3 + + ] + + + + + + + [ + + b + + ] + + + +
+
+
+ + 1969 +
+ + + [ + + + + edit + + + + ] + + ++ 13 June – + + James L. Park + + ( + + Washington State University + + , + + Pullman + + )'s paper is received by + + + Foundations of Physics + + + , + + + + [ + + 8 + + ] + + + + in which he describes the non-possibility of disturbance in a quantum + + transition state + + in the context of a disproof of + + quantum jumps + + in the + + Bohr model + + of the atom. + + + + [ + + 9 + + ] + + + + + + + [ + + 10 + + ] + + + + + + + [ + + c + + ] + + + +
+
+
+ + 1970s +
+ + + [ + + + + edit + + + + ] + + +
+
+ + 1973 +
+ + + [ + + + + edit + + + + ] + + +-
+
- + + Alexander Holevo + + 's paper + + + + [ + + d + + ] + + + + is published. + + + + [ + + 20 + + ] + + + + The + + Holevo bound + + describes a limit of the quantity of classical information which is possible to quanta encode. + + + + [ + + 21 + + ] + + + + +
- + + Charles H. Bennett + + shows that computation can be done + + reversibly + + . + + + + [ + + 22 + + ] + + + + +
+
+ + 1975 +
+ + + [ + + + + edit + + + + ] + + +-
+
- + R. P. Poplavskii publishes "Thermodynamical models of information processing" (in Russian) + + + + [ + + 23 + + ] + + + + which shows the computational infeasibility of simulating quantum systems on classical computers, due to the + + superposition principle + + . + +
- + + Roman Stanisław Ingarden + + , a Polish mathematical physicist, submits the paper "Quantum Information Theory" in + + Reports on Mathematical Physics + + , vol. 10, pp. 43–72, published 1976. It is one of the first attempts at creating a + + quantum information theory + + , showing that + + Shannon information theory + + cannot directly be generalized to the + + quantum + + case, but rather that it is possible to construct a quantum information theory, which is a generalization of Shannon's theory, within the formalism of a generalized quantum mechanics of open systems and a generalized concept of observables (the so-called semi-observables). + +
+
+ + 1980s +
+ + + [ + + + + edit + + + + ] + + +
+
+ + 1980 +
+ + + [ + + + + edit + + + + ] + + +-
+
- + + Paul Benioff + + describes the first quantum mechanical model of a computer. In this work, Benioff showed that a computer could operate under the laws of + + quantum mechanics + + by describing a + + Schrödinger equation + + description of + + Turing machines + + , laying a foundation for further work in quantum computing. The paper + + + + [ + + 24 + + ] + + + + was submitted in June 1979 and published in April 1980. + +
- + + Yuri Manin + + briefly motivates the idea of quantum computing. + + + + [ + + 25 + + ] + + + + +
- + + Tommaso Toffoli + + introduces the reversible + + Toffoli gate + + , + + + + [ + + 26 + + ] + + + + which (together with initialized + + ancilla bits + + ) is + + functionally complete + + for + + reversible + + classical computation. + +
+
+ + 1981 +
+ + + [ + + + + edit + + + + ] + + ++ At the first Conference on the Physics of Computation, held at the + + Massachusetts Institute of Technology + + (MIT) in May, + + + + [ + + 27 + + ] + + + + Paul Benioff and + + Richard Feynman + + give talks on quantum computing. Benioff's talk built on his earlier 1980 work showing that a computer can operate under the laws of quantum mechanics. The talk was titled "Quantum mechanical Hamiltonian models of discrete processes that erase their own histories: application to Turing machines". + + + + [ + + 28 + + ] + + + + In Feynman's talk, he observed that it appeared to be impossible to efficiently simulate the evolution of a quantum nature system on a classical computer, and he proposed a basic model for a quantum computer. + + + + [ + + 29 + + ] + + + + Feynman's conjecture on a quantum simulating computer, published 1982, + + + + [ + + e + + ] + + + + understood as – the reality of + + quantum mechanics + + expressed as an effective quantum system necessitates quantum computers, + + + + [ + + 30 + + ] + + + + is conventionally accepted as a beginning of quantum computing. + + + + [ + + 31 + + ] + + + + + + + [ + + 32 + + ] + + + +
+
+
+ + 1982 +
+ + + [ + + + + edit + + + + ] + + +-
+
- + Paul Benioff further develops his original model of a quantum mechanical Turing machine. + + + + [ + + 33 + + ] + + + + +
- + + William Wootters + + and + + Wojciech H. Zurek + + , + + + + [ + + 34 + + ] + + + + and independently + + Dennis Dieks + + + + + [ + + 35 + + ] + + + + rediscover the + + no-cloning theorem + + of James L. Park. + +
+
+ + 1984 +
+ + + [ + + + + edit + + + + ] + + ++ + Charles Bennett + + and + + Gilles Brassard + + employ Wiesner's conjugate coding for distribution of cryptographic keys. + + + + [ + + 36 + + ] + + + +
+
+
+ + 1985 +
+ + + [ + + + + edit + + + + ] + + +-
+
- + + David Deutsch + + , at the University of Oxford, England, describes the first + + universal quantum computer + + . Just as a + + Universal Turing machine + + can simulate any other Turing machine efficiently ( + + Church–Turing thesis + + ), so the universal quantum computer is able to simulate any other quantum computer with at most a + + polynomial + + slowdown. + +
- + + Asher Peres + + points out the need for + + quantum error correction + + schemes and discusses a + + repetition code + + for amplitude errors. + + + + [ + + 37 + + ] + + + + +
- + + John Clarke + + , + + Michel Devoret + + and + + John M. Martinis + + demonstrate + + quantized energy levels in a Josephson junction + + . + + + + [ + + 38 + + ] + + + + +
+
+ + 1988 +
+ + + [ + + + + edit + + + + ] + + +-
+
- + + Yoshihisa Yamamoto + + and K. Igeta propose the first physical realization of a quantum computer, including Feynman's + + CNOT + + gate. + + + + [ + + 39 + + ] + + + + Their approach uses atoms and photons and is the progenitor of modern quantum computing and networking protocols using photons to transmit qubits and atoms to perform two-qubit operations. + +
+
+ + 1989 +
+ + + [ + + + + edit + + + + ] + + +-
+
- + + Gerard J. Milburn + + proposes a quantum-optical realization of a + + Fredkin gate + + . + + + + [ + + 40 + + ] + + + + +
- + + Bikas Chakrabarti + + & collaborators from + + Saha Institute of Nuclear Physics + + , Kolkata, India, propose that quantum fluctuations could help explore rugged energy landscapes by escaping from local minima of glassy systems having tall but thin barriers by tunneling (instead of climbing over using thermal excitations), suggesting the effectiveness of + + quantum annealing + + over classical + + simulated annealing + + . + + + + [ + + 41 + + ] + + + + + + + [ + + 42 + + ] + + + + +
+
+ + 1990s +
+ + + [ + + + + edit + + + + ] + + +
+
+ + 1991 +
+ + + [ + + + + edit + + + + ] + + ++ + Artur Ekert + + at the University of Oxford, proposes + + entanglement + + -based secure communication. + + + + [ + + 43 + + ] + + + +
+
+
+ + 1992 +
+ + + [ + + + + edit + + + + ] + + +-
+
- + David Deutsch and Richard Jozsa propose a computational problem that can be solved efficiently with the deterministic + + Deutsch–Jozsa algorithm + + on a quantum computer, but for which no deterministic classical algorithm is possible. This was perhaps the earliest result in the + + computational complexity + + of quantum computers, proving that they were capable of performing + + some + + well-defined computation more efficiently than any classical computer. + +
- + + Ethan Bernstein + + and + + Umesh Vazirani + + propose the + + Bernstein–Vazirani algorithm + + . It is a restricted version of the Deutsch–Jozsa algorithm where instead of distinguishing between two different classes of functions, it tries to learn a string encoded in a function. The Bernstein–Vazirani algorithm was designed to prove an oracle separation between complexity classes + + BQP + + and + + BPP + + . + +
- + Research groups at + + Max Planck Institute of Quantum Optics + + ( + + Garching + + ) + + + + [ + + 44 + + ] + + + + + + + [ + + 45 + + ] + + + + and shortly after at + + NIST + + ( + + Boulder + + ) + + + + [ + + 46 + + ] + + + + experimentally realize the first crystallized strings of + + laser-cooled + + ions. Linear ion crystals constitute the qubit basis for most quantum computing and simulation experiments with trapped ions. + +
+
+ + 1993 +
+ + + [ + + + + edit + + + + ] + + ++ Daniel R. Simon, at + + Université de Montréal + + , Quebec, Canada, invents an + + oracle + + problem, + + Simon's problem + + , for which a quantum computer would be + + exponentially faster + + than a conventional computer. This + + algorithm + + introduces the main ideas which were then developed in + + Peter Shor's factorization algorithm + + . +
+
+
+ + 1994 +
+ + + [ + + + + edit + + + + ] + + +-
+
- + + Peter Shor + + , at AT&T's + + Bell Labs + + in + + New Jersey + + , publishes + + Shor's algorithm + + . It would allow a quantum computer to factor large integers quickly. It solves both the + + factoring + + problem and the + + discrete log + + problem. The algorithm can theoretically break many of the + + cryptosystems + + in use today. Its invention sparked tremendous interest in quantum computers. + +
- + The first + + United States Government + + workshop on quantum computing is organized by + + NIST + + in + + Gaithersburg, Maryland + + , in autumn. + +
- + + Isaac Chuang + + and + + Yoshihisa Yamamoto + + propose a quantum-optical realization of a quantum computer to implement Deutsch's algorithm. + + + + [ + + 47 + + ] + + + + Their work introduced dual-rail encoding for photonic qubits. + +
- + In December, + + Ignacio Cirac + + , at + + University of Castilla–La Mancha + + at + + Ciudad Real + + , and + + Peter Zoller + + at the + + University of Innsbruck + + propose an experimental realization of the + + controlled NOT gate + + with + + cold trapped ions + + . + + + + [ + + 48 + + ] + + + + +
+
+ + 1995 +
+ + + [ + + + + edit + + + + ] + + +-
+
- + The first + + United States Department of Defense + + workshop on quantum computing and + + quantum cryptography + + is organized by + + United States Army + + physicists Charles M. Bowden, + + Jonathan Dowling + + , and + + Henry O. Everitt + + ; it took place in February at the + + University of Arizona + + in + + Tucson + + . + +
- + Peter Shor proposes the first schemes for + + quantum error correction + + . + + + + [ + + 49 + + ] + + + + +
- + + Christopher Monroe + + and + + David J. Wineland + + at + + NIST + + ( + + Boulder, Colorado + + ) experimentally realize the first + + quantum logic gate + + – + + the controlled NOT gate – with trapped ions, following the Cirac-Zoller proposal + + . + + + + [ + + 50 + + ] + + + + +
- + Independently, + + Subhash Kak + + and + + Ronald Chrisley + + propose the first + + quantum neural network + + . + + + + [ + + 51 + + ] + + + + + + + [ + + 52 + + ] + + + + +
+
+ + 1996 +
+ + + [ + + + + edit + + + + ] + + +-
+
- + + Lov Grover + + , at Bell Labs, invents the + + quantum database search algorithm + + . The + + quadratic + + speedup is not as dramatic as the speedup for factoring, discrete logs, or physics simulations. However, the algorithm can be applied to a much wider variety of problems. Any problem that can be solved by random, brute-force search, may take advantage of this quadratic speedup in the number of search queries. + +
- + The United States Government, particularly in a joint partnership of the Army Research Office (now part of the + + Army Research Laboratory + + ) and the + + National Security Agency + + , issues the first public call for research proposals in quantum information processing. + +
- + + Andrew Steane + + designs + + Steane code + + for error correction. + + + + [ + + 53 + + ] + + + + +
- + + David DiVincenzo + + , of IBM, proposes a list of minimal requirements for creating a quantum computer, + + + + [ + + 54 + + ] + + + + now called + + DiVincenzo's criteria + + . + +
- + + Seth Lloyd + + proves Feynman's conjecture on quantum simulation. + + + + [ + + 55 + + ] + + + + +
+
+ + 1997 +
+ + + [ + + + + edit + + + + ] + + +-
+
- + + David G. Cory + + , Amr Fahmy and + + Timothy Havel + + , and at the same time + + Neil Gershenfeld + + and + + Isaac Chuang + + at + + MIT + + publish the first papers realizing gates for quantum computers based on bulk nuclear + + spin + + resonance, or thermal ensembles. The technology is based on a + + nuclear magnetic resonance + + (NMR) machine, which is similar to the medical + + magnetic resonance imaging + + machine. + +
- + + Alexei Kitaev + + describes the principles of + + topological quantum computation + + as a method for dealing with the problem of + + decoherence + + . + + + + [ + + 56 + + ] + + + + +
- + + Daniel Loss + + and David DiVincenzo propose the + + Loss-DiVincenzo quantum computer + + , using as qubits the intrinsic + + spin-1/2 + + degree of freedom of individual electrons confined to + + quantum dots + + . + + + + [ + + 57 + + ] + + + + +
+
+ + 1998 +
+ + + [ + + + + edit + + + + ] + + +-
+
- + The first experimental demonstration of a quantum algorithm is reported. A working 2-qubit + + NMR + + quantum computer was used to solve Deutsch's problem by + + Jonathan A. Jones + + and + + Michele Mosca + + at Oxford University and shortly after by Isaac L. Chuang at + + IBM + + 's + + Almaden Research Center + + , in California, and Mark Kubinec and the University of California, Berkeley together with coworkers at + + Stanford University + + in California and + + MIT + + in Massachusetts. + + + + [ + + 58 + + ] + + + + +
- + The first working 3-qubit NMR computer is reported. + +
- + Bruce Kane proposes a silicon-based + + nuclear spin quantum computer + + , using nuclear spins of individual phosphorus atoms in silicon as the qubits and donor electrons to mediate the coupling between qubits. + + + + [ + + 59 + + ] + + + + +
- + The first execution of + + Grover's algorithm + + on an NMR computer is reported. + + + + [ + + 60 + + ] + + + + +
- + Hidetoshi Nishimori & colleagues from + + Tokyo Institute of Technology + + show that a + + quantum annealing + + algorithm can perform better than classical + + simulated annealing + + under certain conditions. + + + + [ + + 61 + + ] + + + + +
- + + Daniel Gottesman + + and Emanuel Knill independently prove that a certain subclass of quantum computations can be efficiently emulated with classical resources ( + + Gottesman–Knill theorem + + ). + + + + [ + + 62 + + ] + + + + +
+
+ + 1999 +
+ + + [ + + + + edit + + + + ] + + +-
+
- + + Samuel L. Braunstein + + and collaborators show that none of the bulk NMR experiments performed to date contain any entanglement; the quantum states being too strongly mixed. This is seen as evidence that NMR computers would likely not yield a benefit over classical computers. It remains an open question, however, whether entanglement is necessary for quantum computational speedup. + + + + [ + + 63 + + ] + + + + +
- + + Gabriel Aeppli + + , + + Thomas Rosenbaum + + and colleagues demonstrate experimentally the basic concepts of quantum annealing in a condensed matter system. + +
- + + Yasunobu Nakamura + + and + + Jaw-Shen Tsai + + demonstrate that a + + superconducting circuit + + can be used as a qubit. + + + + [ + + 64 + + ] + + + + +
+
+ + 2000s +
+ + + [ + + + + edit + + + + ] + + +
+
+ + 2000 +
+ + + [ + + + + edit + + + + ] + + +-
+
- + + Arun K. Pati + + and Samuel L. Braunstein prove the + + quantum no-deleting theorem + + . This is dual to the no-cloning theorem which shows that one cannot delete a copy of an unknown qubit. Together with the stronger no-cloning theorem, the no-deleting theorem has the implication that quantum information can neither be created nor be destroyed. + +
- + The first working 5-qubit NMR computer is demonstrated at the + + Technical University of Munich + + , Germany. + +
- + The first execution of order finding (part of Shor's algorithm) at IBM's Almaden Research Center and Stanford University is demonstrated. + +
- + The first working 7-qubit NMR computer is demonstrated at the + + Los Alamos National Laboratory + + in New Mexico. + +
- + The textbook, + + + Quantum Computation and Quantum Information + + + , by + + Michael Nielsen + + and + + Isaac Chuang + + is published. + +
+
+ + 2001 +
+ + + [ + + + + edit + + + + ] + + +-
+
- + The first execution of Shor's algorithm at IBM's Almaden Research Center and Stanford University is demonstrated. The number 15 was factored using 10 + + 18 + + identical molecules, each containing seven active nuclear spins. + +
- + + Noah Linden + + and + + Sandu Popescu + + prove that the presence of entanglement is a necessary condition for a large class of quantum protocols. This, coupled with Braunstein's result (see 1999 above), called the validity of NMR quantum computation into question. + + + + [ + + 65 + + ] + + + + +
- + Emanuel Knill, + + Raymond Laflamme + + , and Gerard Milburn show that + + optical quantum computing + + is possible with single-photon sources, linear optical elements, and single-photon detectors, establishing the field of linear optical quantum computing. + +
- + Robert Raussendorf and + + Hans Jürgen Briegel + + propose + + measurement-based quantum computation + + . + + + + [ + + 66 + + ] + + + + +
+
+ + 2002 +
+ + + [ + + + + edit + + + + ] + + +-
+
- + The Quantum Information Science and Technology Roadmapping Project, involving some of the main participants in the field, lays out the Quantum computation roadmap. + +
- + The + + Institute for Quantum Computing + + is established at the + + University of Waterloo + + in Waterloo, Ontario by + + Mike Lazaridis + + , + + Raymond Laflamme + + and + + Michele Mosca + + . + + + + [ + + 67 + + ] + + + + +
- + A group led by Gerhard Birkl (now at TU Darmstadt) demonstrates the first 2D array of optical tweezers with trapped atoms for quantum computation with atomic qubits. + + + + [ + + 68 + + ] + + + + +
+
+ + 2003 +
+ + + [ + + + + edit + + + + ] + + +-
+
- + Implementation of the + + Deutsch–Jozsa algorithm + + on an ion-trap quantum computer at the + + University of Innsbruck + + is reported. + + + + [ + + 69 + + ] + + + + +
- + + Todd D. Pittman + + and collaborators at + + Johns Hopkins University + + , + + Applied Physics Laboratory + + , and independently + + Jeremy O'Brien + + and collaborators at the + + University of Queensland + + , demonstrate quantum controlled NOT gates using only linear optical elements. + + + + [ + + 70 + + ] + + + + + + + [ + + 71 + + ] + + + + +
- + The first implementation of a CNOT quantum gate, according to the Cirac–Zoller proposal, is reported by a team at the University of Innsbruck led by + + Rainer Blatt + + . + + + + [ + + 72 + + ] + + + + +
- + The United States government + + DARPA + + + Quantum Network + + becomes fully operational on October 23, 2003. + +
- + The + + Institute for Quantum Optics and Quantum Information + + (IQOQI) is established in Innsbruck and Vienna, Austria, by the founding directors + + Rainer Blatt + + , + + Hans Jürgen Briegel + + , + + Rudolf Grimm + + , + + Anton Zeilinger + + and + + Peter Zoller + + . + +
+
+ + 2004 +
+ + + [ + + + + edit + + + + ] + + +-
+
- + The first working + + pure state + + NMR quantum computer (based on + + parahydrogen + + ) is demonstrated at + + Oxford University + + and + + University of York + + in England. + +
- + Physicists at the University of Innsbruck show deterministic quantum-state teleportation between a pair of trapped calcium ions. + + + + [ + + 73 + + ] + + + + +
- + The first five-photon entanglement is demonstrated by + + Pan Jianwei + + 's team at the University of Science and Technology of China; the minimal number of qubits required for universal quantum error correction. + + + + [ + + 74 + + ] + + + + +
+
+ + 2005 +
+ + + [ + + + + edit + + + + ] + + +-
+
- + + University of Illinois Urbana-Champaign + + scientists demonstrate quantum entanglement of multiple characteristics, potentially allowing multiple qubits per particle. + +
- + Two teams of physicists measure the capacitance of a + + Josephson junction + + for the first time. The methods could be used to measure the state of quantum bits in a quantum computer without disturbing the state. + + + + [ + + 75 + + ] + + + + +
- + In December, + + W states + + of + + quantum registers + + with up to 8 qubits implemented using + + trapped ions + + are demonstrated at the + + Institute for Quantum Optics and Quantum Information + + and the University of Innsbruck in Austria. + + + + [ + + 76 + + ] + + + + +
- + + Harvard University + + and + + Georgia Institute of Technology + + (US) researchers succeed in transferring quantum information between "quantum memories" – from atoms to photons and back again. + + [ + + + + citation needed + + + + ] + + +
+
+ + 2006 +
+ + + [ + + + + edit + + + + ] + + +-
+
- + The Materials Science Department of Oxford University, England cage a qubit in a "buckyball" (a molecule of + + buckminsterfullerene + + ) and demonstrated quantum "bang-bang" error correction. + + + + [ + + 77 + + ] + + + + +
- + Researchers from the + + University of Illinois Urbana-Champaign + + use the + + Zeno Effect + + , repeatedly measuring the properties of a photon to gradually change it without actually allowing the photon to reach the program, to search a database using + + counterfactual quantum computation + + . + + + + [ + + 78 + + ] + + + + +
- + + Vlatko Vedral + + of the University of Leeds, England and colleagues at the universities of Porto and Vienna find that the photons in ordinary laser light can be quantum mechanically entangled with the vibrations of a macroscopic mirror. + + + + [ + + 79 + + ] + + + + +
- + + Samuel L. Braunstein + + at the + + University of York + + , North Yorkshire, England, along with the University of Tokyo and the Japan Science and Technology Agency give the first experimental demonstration of quantum telecloning. + + + + [ + + 80 + + ] + + + + +
- + Professors at the + + University of Sheffield + + , England, develop a means to efficiently produce and manipulate individual photons at high efficiency at room temperature. + + + + [ + + 81 + + ] + + + + +
- + A new error checking method is theorized for Josephson junction computers. + + + + [ + + 82 + + ] + + + + +
- + The first 12-qubit quantum computer is benchmarked by researchers at the + + Institute for Quantum Computing + + and the + + Perimeter Institute for Theoretical Physics + + in Waterloo, Ontario as well as at + + MIT + + , Cambridge, Massachusetts. + + + + [ + + 83 + + ] + + + + +
- + A two-dimensional ion trap is developed for quantum computing. + + + + [ + + 84 + + ] + + + + +
- + Seven atoms are placed in a stable line, a step on the way to constructing a quantum gate, at the University of Bonn, Germany. + + + + [ + + 85 + + ] + + + + +
- + A team at + + Delft University of Technology + + in the Netherlands creates a device that can manipulate the "up" or "down" spin-states of electrons on quantum dots. + + + + [ + + 86 + + ] + + + + +
- + The + + University of Arkansas + + develops quantum dot molecules. + + + + [ + + 87 + + ] + + + + +
- + The spinning new theory on particle spin brings science closer to quantum computing. + + + + [ + + 88 + + ] + + + + +
- + The + + University of Copenhagen + + , Denmark, develops quantum teleportation between photons and atoms. + + + + [ + + 89 + + ] + + + + +
- + + University of Camerino + + scientists develop a theory of macroscopic object entanglement, which has implications for the development of + + quantum repeaters + + . + + + + [ + + 90 + + ] + + + + +
- + Tai-Chang Chiang, at Illinois at Urbana–Champaign, finds that quantum coherence can be maintained in mixed-material systems. + + + + [ + + 91 + + ] + + + + +
- + Cristophe Boehme, University of Utah, demonstrates the feasibility of reading data using the + + nuclear spin + + on a silicon-phosphorus + + Kane quantum computer + + . + + + + [ + + 92 + + ] + + + + +
+
+ + 2007 +
+ + + [ + + + + edit + + + + ] + + +-
+
- + Subwavelength waveguide is developed for light. + + + + [ + + 93 + + ] + + + + +
- + A single-photon emitter for optical fibers is developed. + + + + [ + + 94 + + ] + + + + +
- + The first + + one-way quantum computers + + are built, + + + + [ + + 95 + + ] + + + + where + + measurement + + ( + + collapse + + ) of an + + entangled + + + cluster state + + is the main driving force of computation, + + + + [ + + 96 + + ] + + + + and shown to perform simple computations, such as + + Deutsch's algorithm + + . + + + + [ + + 97 + + ] + + + + +
- + A new material is proposed for quantum computing. + + + + [ + + 98 + + ] + + + + +
- + A single-atom single-photon server is devised. + + + + [ + + 99 + + ] + + + + +
- + The University of Cambridge, England, develops an electron quantum pump. + + + + [ + + 100 + + ] + + + + +
- + A superior method of qubit coupling is developed. + + + + [ + + 101 + + ] + + + + +
- + A successful demonstration of controllably + + coupled qubits + + is reported. + + + + [ + + 102 + + ] + + + + +
- + A breakthrough in applying + + spin-based electronics + + to + + silicon + + is reported. + + + + [ + + 103 + + ] + + + + +
- + Scientists demonstrate a quantum state exchange between light and matter. + + + + [ + + 104 + + ] + + + + +
- + A diamond + + quantum register + + is developed. + + + + [ + + 105 + + ] + + + + +
- + Controlled NOT quantum gates on a pair of superconducting quantum bits are realized. + + + + [ + + 106 + + ] + + + + +
- + Scientists contain and study hundreds of individual atoms in 3D array. + + + + [ + + 107 + + ] + + + + +
- + Nitrogen in a + + buckyball + + molecule is used in quantum computing. + + + + [ + + 108 + + ] + + + + +
- + A large number of electrons are quantum coupled. + + + + [ + + 109 + + ] + + + + +
- + + Spin–orbit interaction + + of electrons are measured. + + + + [ + + 110 + + ] + + + + +
- + Atoms are quantum manipulated in laser light. + + + + [ + + 111 + + ] + + + + +
- + Light pulses are used to control electron spins. + + + + [ + + 112 + + ] + + + + +
- + Quantum effects are demonstrated across tens of nanometers. + + + + [ + + 113 + + ] + + + + +
- + Light pulses are used to accelerate quantum computing development. + + + + [ + + 114 + + ] + + + + +
- + A quantum random access memory (RAM) blueprint is unveiled. + + + + [ + + 115 + + ] + + + + +
- + A model of a quantum transistor is developed. + + + + [ + + 116 + + ] + + + + +
- + Long distance entanglement is demonstrated. + + + + [ + + 117 + + ] + + + + +
- + Photonic quantum computing is used to factor a number by two independent labs. + + + + [ + + 118 + + ] + + + + +
- + A quantum bus is developed by two independent labs. + + + + [ + + 119 + + ] + + + + +
- + A superconducting quantum cable is developed. + + + + [ + + 120 + + ] + + + + +
- + The transmission of qubits is demonstrated. + + + + [ + + 121 + + ] + + + + +
- + Superior qubit material is devised. + + + + [ + + 122 + + ] + + + + +
- + A single-electron qubit memory is reported. + + + + [ + + 123 + + ] + + + + +
- + + Bose–Einstein condensate + + + quantum memory + + is developed. + + + + [ + + 124 + + ] + + + + +
- + + D-Wave Systems + + demonstrates use of a 28-qubit quantum annealing computer. + + + + [ + + 125 + + ] + + + + +
- + A new cryonic method reduces decoherence and increases interaction distance, and thus quantum computing speed. + + + + [ + + 126 + + ] + + + + +
- + A photonic quantum computer is demonstrated. + + + + [ + + 127 + + ] + + + + +
- + Graphene quantum dot spin qubits are proposed. + + + + [ + + 128 + + ] + + + + +
+
+ + 2008 +
+ + + [ + + + + edit + + + + ] + + +
+
+ -
+
- + The + + HHL algorithm + + for solving linear equations is published. + + + + [ + + 129 + + ] + + + + +
- + + Graphene + + quantum dot qubits are described. + + + + [ + + 130 + + ] + + + + +
- + Scientists succeed in storing a quantum bit. + + + + [ + + 131 + + ] + + + + +
- + 3D qubit-qutrit entanglement is demonstrated. + + + + [ + + 132 + + ] + + + + +
- + Analog quantum computing is devised. + + + + [ + + 133 + + ] + + + + +
- + Control of quantum tunneling is devised. + + + + [ + + 134 + + ] + + + + +
- + Entangled memory is developed. + + + + [ + + 135 + + ] + + + + +
- + A superior NOT gate is developed. + + + + [ + + 136 + + ] + + + + +
- + + Qutrits + + are developed. + + + + [ + + 137 + + ] + + + + +
- + Quantum logic gate in optical fiber is reported. + + + + [ + + 138 + + ] + + + + +
- + A superior + + quantum Hall Effect + + is discovered. + + + + [ + + 139 + + ] + + + + +
- + Enduring spin states in quantum dots are reported. + + + + [ + + 140 + + ] + + + + +
- + Molecular magnets are proposed for quantum RAM. + + + + [ + + 141 + + ] + + + + +
- + Quasiparticles offer hope of stable quantum computers. + + + + [ + + 142 + + ] + + + + +
- + Image storage may have better storage of qubits is reported. + + + + [ + + 143 + + ] + + + + +
- + Quantum entangled images are reported. + + + + [ + + 144 + + ] + + + + +
- + Quantum state is intentionally altered in a molecule. + + + + [ + + 145 + + ] + + + + +
- + Electron position is controlled in a silicon circuit. + + + + [ + + 146 + + ] + + + + +
- + A superconducting electronic circuit pumps microwave photons. + + + + [ + + 147 + + ] + + + + +
- + Amplitude spectroscopy is developed. + + + + [ + + 148 + + ] + + + + +
- + A superior quantum computer test is developed. + + + + [ + + 149 + + ] + + + + +
- + An optical frequency comb is devised. + + + + [ + + 150 + + ] + + + + +
- + The concept of + + Quantum Darwinism + + is supported. + + + + [ + + 151 + + ] + + + + +
- + Hybrid qubit memory is developed. + + + + [ + + 152 + + ] + + + + +
- + A qubit is stored for over 1 second in an atomic nucleus. + + + + [ + + 153 + + ] + + + + +
- + Faster electron spin qubit switching and reading is developed. + + + + [ + + 154 + + ] + + + + +
- + The possibility of non-entanglement quantum computing is described. + + + + [ + + 155 + + ] + + + + +
- + + D-Wave Systems + + claims to have produced a 128-qubit computer chip, though this claim had yet to be verified. + + + + [ + + 156 + + ] + + + + +
+
+ + 2009 +
+ + + [ + + + + edit + + + + ] + + +-
+
- + + Carbon 12 + + is purified for longer coherence times. + + + + [ + + 157 + + ] + + + + +
- + The lifetime of qubits is extended to hundreds of milliseconds. + + + + [ + + 158 + + ] + + + + +
- + Improved quantum control of photons is reported. + + + + [ + + 159 + + ] + + + + +
- + Quantum entanglement is demonstrated over 240 micrometres. + + + + [ + + 160 + + ] + + + + +
- + Qubit lifetime is extended by a factor of 1000. + + + + [ + + 161 + + ] + + + + +
- + The first electronic quantum processor is created. + + + + [ + + 162 + + ] + + + + +
- + Six-photon graph state entanglement is used to simulate the fractional statistics of + + anyons + + living in artificial spin-lattice models. + + + + [ + + 163 + + ] + + + + +
- + A single-molecule optical transistor is devised. + + + + [ + + 164 + + ] + + + + +
- + + NIST + + reads and writes individual qubits. + + + + [ + + 165 + + ] + + + + +
- + NIST demonstrates multiple computing operations on qubits. + + + + [ + + 166 + + ] + + + + +
- + The first large-scale topological cluster state quantum architecture is developed for atom-optics. + + + + [ + + 167 + + ] + + + + +
- + A combination of all of the fundamental elements required to perform scalable quantum computing through the use of qubits stored in the internal states of trapped atomic ions is shown. + + + + [ + + 168 + + ] + + + + +
- + Researchers at University of Bristol, U.K., demonstrate Shor's algorithm on a silicon photonic chip. + + + + [ + + 169 + + ] + + + + +
- + Quantum Computing with an Electron Spin Ensemble is reported. + + + + [ + + 170 + + ] + + + + +
- + A so-called photon machine gun is developed for quantum computing. + + + + [ + + 171 + + ] + + + + +
- + The first universal programmable quantum computer is unveiled. + + + + [ + + 172 + + ] + + + + +
- + Scientists electrically control quantum states of electrons. + + + + [ + + 173 + + ] + + + + +
- + Google collaborates with D-Wave Systems on image search technology using quantum computing. + + + + [ + + 174 + + ] + + + + +
- + A method for synchronizing the properties of multiple coupled CJJ rf-SQUID flux qubits with a small spread of device parameters due to fabrication variations is demonstrated. + + + + [ + + 175 + + ] + + + + +
- + Universal Ion Trap Quantum Computation with decoherence free qubits is realized. + + + + [ + + 176 + + ] + + + + +
- + The first chip-scale quantum computer is reported. + + + + [ + + 177 + + ] + + + + +
+
+ + 2010s +
+ + + [ + + + + edit + + + + ] + + +
+
+ + 2010 +
+ + + [ + + + + edit + + + + ] + + +-
+
- + Ions are trapped in an optical trap. + + + + [ + + 178 + + ] + + + + +
- + An optical quantum computer with three qubits calculates the energy spectrum of molecular hydrogen to high precision. + + + + [ + + 179 + + ] + + + + +
- + The first germanium laser advances the state of optical computers. + + + + [ + + 180 + + ] + + + + +
- + A single-electron qubit is developed + + + + [ + + 181 + + ] + + + + +
- + The quantum state in a macroscopic object is reported. + + + + [ + + 182 + + ] + + + + +
- + A new quantum computer cooling method is developed. + + + + [ + + 183 + + ] + + + + +
- + Racetrack ion trap is developed. + + + + [ + + 184 + + ] + + + + +
- + Evidence for a Moore-Read state in the + + + + + quantum Hall plateau, + + + + [ + + 185 + + ] + + + + which would be suitable for topological quantum computation is reported + +
- + A quantum interface between a single photon and a single atom is demonstrated. + + + + [ + + 186 + + ] + + + + +
- + LED (light emitting diode) quantum entanglement is demonstrated. + + + + [ + + 187 + + ] + + + + +
- + Multiplexed design increases the speed of transmission of quantum information through a quantum communications channel. + + + + [ + + 188 + + ] + + + + +
- + A two-photon optical chip is reported. + + + + [ + + 189 + + ] + + + + +
- + Microfabricated planar ion traps are tested. + + + + [ + + 190 + + ] + + + + + + + [ + + 191 + + ] + + + + +
- + A + + boson sampling + + technique is proposed by Aaronson and Arkhipov. + + + + [ + + 192 + + ] + + + + +
- + + Quantum dot + + qubits are manipulated electrically, not magnetically. + + + + [ + + 193 + + ] + + + + +
+
+
+ + 2011 +
+ + + [ + + + + edit + + + + ] + + +-
+
- + Entanglement in a solid-state spin ensemble is reported + + + + [ + + 194 + + ] + + + + +
- + NOON photons in a superconducting quantum integrated circuit are reported. + + + + [ + + 195 + + ] + + + + +
- + A quantum antenna is described. + + + + [ + + 196 + + ] + + + + +
- + Multimode quantum interference is documented. + + + + [ + + 197 + + ] + + + + +
- + Magnetic Resonance applied to quantum computing is reported. + + + + [ + + 198 + + ] + + + + +
- + The quantum pen for single atoms is documented. + + + + [ + + 199 + + ] + + + + +
- + Atomic "Racing Dual" is reported. + + + + [ + + 200 + + ] + + + + +
- + A 14-qubit register is reported. + + + + [ + + 201 + + ] + + + + +
- + D-Wave claims to have developed quantum annealing and introduces their product called D-Wave One. The company claims this is the first commercially available quantum computer. + + + + [ + + 202 + + ] + + + + +
- + Repetitive error correction is demonstrated in a quantum processor. + + + + [ + + 203 + + ] + + + + +
- + Diamond quantum computer memory is demonstrated. + + + + [ + + 204 + + ] + + + + +
- + Qmodes are developed. + + + + [ + + 205 + + ] + + + + +
- + Decoherence is demonstrated as suppressed. + + + + [ + + 206 + + ] + + + + +
- + Simplification of controlled operations is reported. + + + + [ + + 207 + + ] + + + + +
- + Ions entangled using microwaves are documented. + + + + [ + + 208 + + ] + + + + +
- + Practical error rates are achieved. + + + + [ + + 209 + + ] + + + + +
- + A quantum computer employing + + Von Neumann architecture + + is described. + + + + [ + + 210 + + ] + + + + +
- + A quantum spin Hall topological insulator is reported. + + + + [ + + 211 + + ] + + + + +
- + The concept of two diamonds linked by quantum entanglement could help develop photonic processors is described. + + + + [ + + 212 + + ] + + + + +
+
+ + 2012 +
+ + + [ + + + + edit + + + + ] + + +-
+
- + D-Wave claims a quantum computation using 84 qubits. + + + + [ + + 213 + + ] + + + + +
- + Physicists create a working transistor from a single atom. + + + + [ + + 214 + + ] + + + + + + + [ + + 215 + + ] + + + + +
- + A method for manipulating the charge of nitrogen vacancy-centres in diamond is reported. + + + + [ + + 216 + + ] + + + + +
- + Creation of a 300 qubit/particle quantum simulator is reported. + + + + [ + + 217 + + ] + + + + + + + [ + + 218 + + ] + + + + +
- + Demonstration of topologically protected qubits with an eight-photon entanglement is reported; a robust approach to practical quantum computing. + + + + [ + + 219 + + ] + + + + +
- + + 1QB Information Technologies (1QBit) + + is founded; the world's first dedicated quantum computing software company. + + + + [ + + 220 + + ] + + + + +
- + The first design of a quantum repeater system without a need for quantum memories is reported. + + + + [ + + 221 + + ] + + + + +
- + Decoherence suppressed for 2 seconds at room temperature by manipulating + + Carbon-13 + + atoms with lasers is reported. + + + + [ + + 222 + + ] + + + + + + + [ + + 223 + + ] + + + + +
- + The theory of Bell-based randomness expansion with reduced assumption of measurement independence is reported. + + + + [ + + 224 + + ] + + + + +
- + New low overhead method for fault-tolerant quantum logic is developed called lattice surgery. + + + + [ + + 225 + + ] + + + + +
+
+ + 2013 +
+ + + [ + + + + edit + + + + ] + + +-
+
- + Coherence time of 39 minutes at room temperature (and 3 hours at cryogenic temperatures) is demonstrated for an ensemble of impurity-spin qubits in isotopically purified silicon. + + + + [ + + 226 + + ] + + + + +
- + Extension of time for a qubit maintained in superimposed state for ten times longer than what has ever been achieved before is reported. + + + + [ + + 227 + + ] + + + + +
- + The first resource analysis of a large-scale quantum algorithm using explicit fault-tolerant, error-correction protocols is developed for factoring. + + + + [ + + 228 + + ] + + + + +
+
+ + 2014 +
+ + + [ + + + + edit + + + + ] + + +-
+
- + Documents leaked by + + Edward Snowden + + confirm the + + Penetrating Hard Targets project + + , + + + + [ + + 229 + + ] + + + + by which the US + + National Security Agency + + sought to develop a quantum computing capability for + + cryptography + + purposes. + + + + [ + + 230 + + ] + + + + + + + [ + + 231 + + ] + + + + + + + [ + + 232 + + ] + + + + +
- + Researchers in Japan and Austria publish the first large-scale quantum computing architecture for a diamond-based system. + + + + [ + + 233 + + ] + + + + +
- + Scientists at the University of Innsbruck perform quantum computations on a topologically encoded qubit which is encoded in entangled states distributed over seven trapped-ion qubits. + + + + [ + + 234 + + ] + + + + +
- + Scientists transfer data by + + quantum teleportation + + over a distance of 10 feet (3.0 meters) with zero percent error rate; a vital step towards a quantum Internet. + + + + [ + + 235 + + ] + + + + + + + [ + + 236 + + ] + + + + +
+
+ + 2015 +
+ + + [ + + + + edit + + + + ] + + +-
+
- + Optically addressable nuclear spins in a solid with a six-hour coherence time are documented. + + + + [ + + 237 + + ] + + + + +
- + Quantum information encoded by simple electrical pulses is documented. + + + + [ + + 238 + + ] + + + + +
- + Quantum error detection code using a square lattice of four superconducting qubits is documented. + + + + [ + + 239 + + ] + + + + +
- + D-Wave Systems Incorporated announce on June 22 that it had broken the 1,000-qubit barrier. + + + + [ + + 240 + + ] + + + + +
- + A two-qubit silicon logic gate is successfully developed. + + + + [ + + 241 + + ] + + + + +
+
+ + 2016 +
+ + + [ + + + + edit + + + + ] + + +-
+
- + Physicists led by Rainer Blatt join forces with scientists at the Massachusetts Institute of Technology (MIT), led by Isaac Chuang, to efficiently implement Shor's algorithm in an ion-trap-based quantum computer. + + + + [ + + 242 + + ] + + + + +
- + IBM releases the Quantum Experience, an online interface to their superconducting systems with 5 qubits. The system is immediately used to publish new protocols in quantum information processing. + + + + [ + + 243 + + ] + + + + + + + [ + + 244 + + ] + + + + +
- + Google, using an array of 9 superconducting qubits developed by the + + Martinis group + + and + + UCSB + + , simulates a + + hydrogen + + molecule. + + + + [ + + 245 + + ] + + + + +
- + Scientists in Japan and Australia invent a quantum version of a + + Sneakernet + + communications system. + + + + [ + + 246 + + ] + + + + +
+
+ + 2017 +
+ + + [ + + + + edit + + + + ] + + +-
+
- + D-Wave Systems Incorporated announce general commercial availability of the D-Wave 2000Q quantum annealer, which it claims has 2000 qubits. + + + + [ + + 247 + + ] + + + + +
- + A blueprint for a microwave trapped ion quantum computer is published. + + + + [ + + 248 + + ] + + + + +
- + IBM unveils a 17-qubit quantum computer—and a better way of benchmarking it. + + + + [ + + 249 + + ] + + + + +
- + Scientists build a microchip that generates two entangled + + qudits + + each with 10 states, for 100 dimensions total. + + + + [ + + 250 + + ] + + + + +
- + Microsoft revealed + + Q# + + , a quantum programming language integrated with its + + Visual Studio + + development environment. Programs can be executed locally on a 32-qubit simulator, or a 40-qubit simulator on + + Azure + + . + + + + [ + + 251 + + ] + + + + +
- + IBM reveals a working 50-qubit quantum computer that maintains its quantum state for 90 microseconds. + + + + [ + + 252 + + ] + + + + +
- + The first + + teleportation + + using a satellite, connecting ground stations over a distance of 1400 km apart is announced. + + + + [ + + 253 + + ] + + + + Previous experiments were at + + Earth + + , at shorter distances. + +
+
+ + 2018 +
+ + + [ + + + + edit + + + + ] + + +-
+
- + + John Preskill + + introduces the concept of + + noisy intermediate-scale quantum + + (NISQ) era. + + + + [ + + 254 + + ] + + + + +
- + MIT scientists report the discovery of a new triple-photon form of + + light + + . + + + + [ + + 255 + + ] + + + + + + + [ + + 256 + + ] + + + + +
- + Oxford researchers successfully use a trapped-ion technique, where they place two charged atoms in a state of quantum entanglement to speed up logic gates by a factor of 20 to 60 times, as compared with the previous best gates, translated to 1.6 microseconds long, with 99.8% precision. + + + + [ + + 257 + + ] + + + + +
- + QuTech successfully tests a silicon-based 2-spin-qubit processor. + + + + [ + + 258 + + ] + + + + + + + [ + + 259 + + ] + + + + +
- + Google announces the creation of a 72-qubit quantum chip, called "Bristlecone", + + + + [ + + 260 + + ] + + + + achieving a new record. + +
- + Intel announces the fabrication and testing of silicon-based spin-qubit processors manufactured in the company's D1D fab in Oregon. + + + + [ + + 261 + + ] + + + + + + + [ + + 262 + + ] + + + + +
- + Intel confirms development of a 49-qubit superconducting test chip, called "Tangle Lake". + + + + [ + + 263 + + ] + + + + +
- + Japanese researchers demonstrate universal holonomic quantum gates. + + + + [ + + 264 + + ] + + + + +
- + An integrated photonic platform for quantum information with continuous variables is documented. + + + + [ + + 265 + + ] + + + + +
- + On December 17, 2018, the company IonQ introduces the first commercial trapped-ion quantum computer, with a program length of over 60 two-qubit gates, 11 fully connected qubits, 55 addressable pairs, one-qubit gate error of <0.03% and two-qubit gate error of <1.0%. + + + + [ + + 266 + + ] + + + + + + + [ + + 267 + + ] + + + + +
- + On December 21, 2018, the US + + National Quantum Initiative Act + + was signed into law by US + + President + + + Donald Trump + + , establishing the goals and priorities for a 10-year plan to accelerate the development of quantum information science and technology applications in the + + United States + + . + + + + [ + + 268 + + ] + + + + + + + [ + + 269 + + ] + + + + + + + [ + + 270 + + ] + + + + +
+
+
+
+ + 2019 +
+ + + [ + + + + edit + + + + ] + + +.jpg)
+
+ -
+
- + IBM unveils its first commercial quantum computer, the + + IBM Q System One + + , + + + + [ + + 271 + + ] + + + + designed by UK-based + + Map Project Office + + and Universal Design Studio and manufactured by Goppion. + + + + [ + + 272 + + ] + + + + +
- + Austrian physicists demonstrate self-verifying, hybrid, variational quantum simulation of lattice models in condensed matter and high-energy physics using a feedback loop between a classical computer and a quantum co-processor. + + + + [ + + 273 + + ] + + + + +
- + Griffith University, University of New South Wales (UNSW), Sydney, Australia, and UTS, in partnership with seven universities in the United States, develop noise cancelling for quantum bits via machine learning, taking quantum noise in a quantum chip down to 0%. + + + + [ + + 274 + + ] + + + + + + + [ + + 275 + + ] + + + + +
- + + Quantum Darwinism + + is observed in diamond at room temperature. + + + + [ + + 276 + + ] + + + + + + + [ + + 277 + + ] + + + + +
- + Google reveals its + + Sycamore processor + + , consisting of 53 qubits. A paper by Google's quantum computer research team is briefly available in late September 2019, claiming the project had reached + + quantum supremacy + + . + + + + [ + + 278 + + ] + + + + + + + [ + + 279 + + ] + + + + + + + [ + + 280 + + ] + + + + Google also develops a cryogenic chip for controlling qubits from within a dilution refrigerator. + + + + [ + + 281 + + ] + + + + +
- + + University of Science and Technology of China + + researchers demonstrate boson sampling with 14 detected photons. + + + + [ + + 282 + + ] + + + + +
+
+ + 2020s +
+ + + [ + + + + edit + + + + ] + + +
+
+
+
+ + 2020 +
+ + + [ + + + + edit + + + + ] + + +-
+
- + 20 April – UNSW Sydney develops a way of producing 'hot qubits' – quantum devices that operate at 1.5 kelvin. + + + + [ + + 283 + + ] + + + + +
- + 11 March – UNSW perform electric nuclear resonance to control single atoms in electronic devices. + + + + [ + + 284 + + ] + + + + +
- + 23 April – University of Tokyo and Australian scientists create and successfully test a solution to the quantum wiring problem, creating a 2D structure for qubits. Such structure can be built using existing integrated circuit technology and has considerably lower cross-talk. + + + + [ + + 285 + + ] + + + + +
- + 16 January – Quantum physicists report the first direct splitting of one photon into three using + + spontaneous parametric down-conversion + + which may have applications in + + quantum technology + + . + + + + [ + + 286 + + ] + + + + + + + [ + + 287 + + ] + + + + +
- + 11 February – Quantum engineers report that they created + + artificial atoms + + in + + silicon quantum dots + + for + + quantum computing + + and that artificial atoms with a higher number of electrons can be more stable qubits than previously thought possible. Enabling + + silicon-based quantum computers + + may make it possible to reuse the manufacturing technology of "classical" modern-day computer chips among other advantages. + + + + [ + + 288 + + ] + + + + + + + [ + + 289 + + ] + + + + +
- + 14 February – Quantum physicists develop a novel + + single-photon source + + which may allow bridging of semiconductor-based quantum-computers that use photons by converting the state of an electron + + spin + + to the + + polarisation + + of a photon. They showed that they can generate a single photon in a controlled way without the need for + + randomly + + formed + + quantum dots + + or structural defects in diamonds. + + + + [ + + 290 + + ] + + + + + + + [ + + 291 + + ] + + + + +
- + 25 February – Scientists visualize a + + quantum measurement + + : by taking snapshots of ion states at different times of measurement via coupling of a trapped ion + + qutrit + + to the photon environment, they showed that the changes of the degrees of + + superpositions + + , and therefore of + + probabilities + + of states after measurement, happens gradually under the measurement influence. + + + + [ + + 292 + + ] + + + + + + + [ + + 293 + + ] + + + + +
-
+
+ + + 2 March – Scientists report achieving repeated + + quantum nondemolition measurements + + of an electron's spin in a silicon quantum dot: measurements that do not change the electron's spin in the process. + + + + [ + + 294 + + ] + + + + + + + [ + + 295 + + ] + + + +
+
+ + Working IQM Quantum Computer installed in Espoo, Finland in 2020 + +
+ - + 11 March – Quantum engineers report to have controlled the nucleus of a single atom using only electric fields. This was first suggested to be possible in 1961 and may be used for silicon + + quantum computers + + that use single-atom spins without needing oscillating magnetic fields. This may be especially useful for + + nanodevices + + , for precise sensors of electric and magnetic fields, as well as for fundamental inquiries into + + quantum nature + + . + + + + [ + + 296 + + ] + + + + + + + [ + + 297 + + ] + + + + +
- + 19 March – A US Army laboratory announces that its scientists analysed a + + Rydberg sensor + + 's sensitivity to oscillating electric fields over an enormous range of frequencies—from + + 0 to 10^12 + + Hz + + + (the spectrum to 0.3 mm wavelength). The Rydberg sensor may potentially be used to detect communications signals as it could reliably detect signals over the entire spectrum and compare favourably with other established electric field sensor technologies, such as electro-optic crystals and dipole antenna-coupled passive electronics. + + + + [ + + 298 + + ] + + + + + + + [ + + 299 + + ] + + + + +
- + 23 March – Researchers report that they corrected for + + signal loss + + in a prototype quantum + + node + + that can catch, store and entangle bits of quantum information. Their concepts could be used for key components of + + quantum repeaters + + in quantum networks and extend their longest possible range. + + + + [ + + 300 + + ] + + + + + + + [ + + 301 + + ] + + + + +
- + 15 April – Researchers demonstrate a proof-of-concept silicon quantum processor unit cell which works at 1.5 kelvin – many times warmer than common quantum processors that are being developed. The finding may enable the integration of classical control electronics with a qubit array and substantially reduce costs. The cooling requirements necessary for quantum computing have been called one of the toughest roadblocks in the field. + + + + [ + + 302 + + ] + + + + + + + [ + + 303 + + ] + + + + + + + [ + + 304 + + ] + + + + + + + [ + + 305 + + ] + + + + +
- + 16 April – Scientists prove the existence of the + + Rashba effect + + in bulk + + perovskites + + . Previously researchers have hypothesized that the materials' extraordinary electronic, magnetic and optical properties – which make it a commonly used material + + for solar cells + + and + + quantum electronics + + – are related to this effect which to date had not been proven to be present in the material. + + + + [ + + 306 + + ] + + + + + + + [ + + 307 + + ] + + + + +
- + 8 May – Researchers report to have developed a proof-of-concept of a + + quantum radar + + using quantum entanglement and + + microwaves + + which may potentially be useful for the development of improved radar systems, security scanners and medical imaging systems. + + + + [ + + 308 + + ] + + + + + + + [ + + 309 + + ] + + + + + + + [ + + 310 + + ] + + + + +
- + 12 May – Researchers report to have developed a method to selectively manipulate a layered + + manganite + + 's + + correlated electrons' + + spin state while leaving its + + orbital state + + intact using + + femtosecond + + + X-ray laser + + pulses. This may indicate that + + orbitronics + + – using variations in the orientations of orbitals – may be used as the + + basic unit of information + + in novel information technology devices. + + + + [ + + 311 + + ] + + + + + + + [ + + 312 + + ] + + + + +
- + 19 May – Researchers report to have developed the first integrated silicon on-chip low-noise + + single-photon source + + compatible with large-scale + + quantum photonics + + . + + + + [ + + 313 + + ] + + + + + + + [ + + 314 + + ] + + + + + + + [ + + 315 + + ] + + + + +
- + 11 June – Scientists report the generation of + + rubidium + + + Bose–Einstein condensates + + (BECs) in the + + Cold Atom Laboratory + + aboard the + + International Space Station + + under + + microgravity + + which could enable improved research of BECs and + + quantum mechanics + + , whose physics are scaled to macroscopic scales in BECs, support long-term investigations of + + few-body physics + + , support the development of techniques for + + atom–wave interferometry + + and + + atom lasers + + and verified the successful operation of the laboratory. + + + + [ + + 316 + + ] + + + + + + + [ + + 317 + + ] + + + + + + + [ + + 318 + + ] + + + + +
- + 15 June – Scientists report the development of the smallest + + synthetic molecular motor + + , consisting of 12 atoms and a rotor of 4 atoms, shown to be capable of being powered by an electric current using an electron scanning microscope and moving with very low amounts of energy due to + + quantum tunneling + + . + + + + [ + + 319 + + ] + + + + + + + [ + + 320 + + ] + + + + + + + [ + + 321 + + ] + + + + +
- + 17 June – Quantum scientists report the development of a system that entangled two photon + + quantum communication nodes + + through a microwave cable that can send information in between without the photons being sent through, or occupying, the cable. On 12 June it was reported that they also, for the first time, entangled two + + phonons + + as well as erase information from their measurement after the measurement had been completed using + + delayed-choice quantum erasure + + . + + + + [ + + 322 + + ] + + + + + + + [ + + 323 + + ] + + + + + + + [ + + 324 + + ] + + + + + + + [ + + 325 + + ] + + + + +
- + 18 June – Honeywell announces a quantum computer with a quantum volume of 64, the highest at the time. + + + + [ + + 326 + + ] + + + + +
- + 13 August – Universal coherence protection is reported to have been achieved in a solid-state spin qubit, a modification that allows quantum systems to stay operational (or " + + coherent + + ") for 10,000 times longer than before. + + + + [ + + 327 + + ] + + + + + + + [ + + 328 + + ] + + + + +
- + 26 August – Scientists report that ionizing radiation from environmental radioactive materials and + + cosmic rays + + may substantially limit the + + coherence + + times of qubits if they are not adequately + + shielded + + . + + + + [ + + 329 + + ] + + + + + + + [ + + 330 + + ] + + + + + + + [ + + 331 + + ] + + + + +
-
+
+ + + 28 August – Quantum engineers working for Google report the largest chemical simulation on a + + quantum computer + + – a + + Hartree–Fock approximation + + with a + + Sycamore + + computer paired with a classical computer that analyzed results to provide new parameters for a 12-qubit system. + + + + [ + + 332 + + ] + + + + + + + [ + + 333 + + ] + + + + + + + [ + + 334 + + ] + + + +
+
+ + Google Sycamore quantum computer processor in 2019 + +
+ - + 2 September – Researchers present an eight-user city-scale + + quantum communication network + + , located in + + Bristol + + , England, using already deployed fibres without active switching or trusted nodes. + + + + [ + + 335 + + ] + + + + + + + [ + + 336 + + ] + + + + +
- + 9 September – + + Xanadu + + offers a cloud quantum computing service, using a photonic quantum computer. + + + + [ + + 337 + + ] + + + + +
- + + + 21 September – Researchers report the achievement of quantum entanglement between the + + motion of a millimetre-sized mechanical oscillator + + and a disparate distant spin system of a cloud of atoms. + + + + [ + + 338 + + ] + + + + + + + [ + + 339 + + ] + + + + +
- + 3 December – Chinese researchers claim to have achieved + + quantum supremacy + + , using a + + photonic + + peak 76-qubit system (43 average) known as + + + Jiuzhang + + + , which performed calculations at 100 trillion times the speed of classical supercomputers. + + + + [ + + 340 + + ] + + + + + + + [ + + 341 + + ] + + + + + + + [ + + 342 + + ] + + + + +
- + 29 October – Honeywell introduces a subscription for a quantum computing service, known as quantum computing as a service, with an ion trap quantum computer. + + + + [ + + 343 + + ] + + + + +
- + 12 December – At the IEEE International Electron Devices Meeting (IEDM), IMEC shows an RF multiplexer chip that operates at temperatures as low as a few millikelvins, designed for quantum computers. Researchers from the Chalmers University of Technology report the development of a cryogenic low-noise amplifier (LNA) for amplifying signals from qubits, made of indium phosphide (InP) high-electron-mobility transistors (HEMTs). + + + + [ + + 344 + + ] + + + + +
- + 21 December – Publication of research of " + + counterfactual quantum communication + + " – whose first achievement was reported in 2017 – by which information can be exchanged without any physical particle traveling between observers and without quantum teleportation. + + + + [ + + 345 + + ] + + + + The research suggests that this is based on some form of relation between the properties of modular angular momentum. + + + + [ + + 346 + + ] + + + + + + + [ + + 347 + + ] + + + + + + + [ + + 348 + + ] + + + + +
+ 
+
+
+ + 2021 +
+ + + [ + + + + edit + + + + ] + + +-
+
- + 6 January – Chinese researchers report that they have built the world's largest integrated quantum communication network, combining over 700 optical fibers with two + + QKD + + -ground-to-satellite links for a total distance between nodes of the network of up to ~4,600 km. + + + + [ + + 349 + + ] + + + + + + + [ + + 350 + + ] + + + + +
- + 13 January – Austrian researchers report the first realization of an + + entangling gate + + between two + + logical qubits + + encoded in + + topological quantum error-correction codes + + using a + + trapped-ion quantum computer + + with 10 ions. + + + + [ + + 351 + + ] + + + + + + + [ + + 352 + + ] + + + + +
- + 15 January – Researchers in China report the successful transmission of entangled photons between + + drones + + , used as nodes for the development of mobile quantum networks or flexible network extensions, marking the first work in which entangled particles were sent between two moving devices. + + + + [ + + 353 + + ] + + + + + + + [ + + 354 + + ] + + + + +
- + 27 January – + + BMW + + announces the use of a quantum computer for the optimization of supply chains. + + + + [ + + 355 + + ] + + + + +
- + 28 January – Swiss and German researchers report the development of a highly efficient single-photon source for quantum information technology with a system of gated quantum dots in a tunable microcavity which captures photons released from excited "artificial atoms". + + + + [ + + 356 + + ] + + + + + + + [ + + 357 + + ] + + + + +
- + 3 February – Microsoft starts offering a cloud quantum computing service, called + + Azure Quantum + + . + + + + [ + + 358 + + ] + + + + +
- + 5 February – Researchers demonstrate a first prototype of quantum-logic gates for + + distributed quantum computers + + . + + + + [ + + 359 + + ] + + + + + + + [ + + 360 + + ] + + + + +
- + 11 March – Honeywell announces a quantum computer with a quantum volume of 512. + + + + [ + + 361 + + ] + + + + +
- + 13 April – In a + + preprint + + , an astronomer describes for the first time how one could search for quantum communication + + transmissions + + sent by + + extraterrestrial intelligence + + using existing telescope and receiver technology. He also provides arguments for why future searches of + + SETI + + should also target interstellar quantum communications. + + + + [ + + 362 + + ] + + + + + + + [ + + 363 + + ] + + + + +
- + 7 May – Two studies complement research published September 2020 by + + quantum-entangling + + two mechanical oscillators. + + + + [ + + 364 + + ] + + + + + + + [ + + 365 + + ] + + + + + + + [ + + 366 + + ] + + + + +
- + 8 June – Researchers from + + Toshiba + + achieve + + quantum communications + + over optical fibres exceeding 600 km in length, a world-record distance. + + + + [ + + 367 + + ] + + + + + + + [ + + 368 + + ] + + + + + + + [ + + 369 + + ] + + + + +
+
+ -
+
- + 17 June – Austrian, German and Swiss researchers present a quantum computing demonstrator fitting into two standard 19-inch + + racks + + , the world's first quality standards-meeting compact quantum computer. + + + + [ + + 370 + + ] + + + + + + + [ + + 371 + + ] + + + + +
- + 29 June – IBM demonstrates + + quantum advantage + + . + + + + [ + + 372 + + ] + + + + +
- + 1 July – + + Rigetti + + develops a method to join several quantum processor chips together. + + + + [ + + 373 + + ] + + + + +
- + 7 July – American researchers present a programmable + + quantum simulator + + that can operate with 256 qubits, + + + + [ + + 374 + + ] + + + + + + + [ + + 375 + + ] + + + + and on the same date and journal another team presents a quantum simulator of 196 + + Rydeberg atoms + + trapped in + + optical tweezers + + . + + + + [ + + 376 + + ] + + + + +
- + 25 October – Chinese researchers report that they have developed the world's fastest programmable quantum computers. The photon-based + + Jiuzhang 2 + + is claimed to calculate a task in one millisecond, that otherwise would have taken a conventional computer 30 trillion years to complete. Additionally, + + Zuchongzhi 2 + + is a 66-qubit programmable superconducting quantum computer that was claimed to be the world's fastest quantum computer that can run a calculation task one million times more complex than Google's + + Sycamore + + , as well as being 10 million times faster. + + + + [ + + 377 + + ] + + + + + + + [ + + 378 + + ] + + + + + + + +
- + 11 November – The first simulation of + + baryons + + on a quantum computer is reported by + + University of Waterloo + + , Canada. + + + + [ + + 379 + + ] + + + + + + + [ + + 380 + + ] + + + + +
- + 16 November – IBM claims that it has created a 127-quantum bit processor, ' + + IBM Eagle + + ', which according to a report is the most powerful quantum processor known. According to the report, the company had not yet published an academic paper describing its metrics, performance or abilities. + + + + [ + + 381 + + ] + + + + + + + [ + + 382 + + ] + + + + +
+
+ + 2022 +
+ + + [ + + + + edit + + + + ] + + +-
+
- + 18 January – Europe's first quantum annealer with more than 5,000 qubits is presented in Jülich, Germany. + + + + [ + + 383 + + ] + + + + +
- + 24 March – The first prototype, photonic, quantum + + memristive device + + , for + + neuromorphic (quantum-) computers + + and + + artificial neural networks + + , that is "able to produce memristive dynamics on single-photon states through a scheme of measurement and classical feedback" is invented. + + + + [ + + 384 + + ] + + + + + + + [ + + 385 + + ] + + + + +
- + 29 March – Researchers at Intel and + + Delft University of Technology + + publish data on the first qubits fabricated on 300 mm wafers in a semiconductor manufacturing facility using all-optical lithography and fully industrial processing. + + + + [ + + 386 + + ] + + + + +
- + 14 April – The + + Quantinuum + + System Model H1-2 doubles its performance claiming to be the first commercial quantum computer to pass + + quantum volume + + 4096. + + + + [ + + 387 + + ] + + + + +
- + 26 May – A universal set of computational operations on fault-tolerant quantum bits is demonstrated by a team of experimental physicists in Innsbruck, Austria. + + + + [ + + 388 + + ] + + + + +
- + 22 June – The world's first quantum computer + + integrated circuit + + is demonstrated. + + + + [ + + 389 + + ] + + + + + + + [ + + 390 + + ] + + + + +
- + 28 June – Physicists report that + + interstellar quantum communication by other civilizations + + could be possible and may be advantageous, identifying some potential challenges and factors for detecting such. They may use, for example, X-ray photons for remotely established + + quantum communications + + and quantum teleportation as the communication mode. + + + + [ + + 391 + + ] + + + + + + + [ + + 392 + + ] + + + + +
- + 21 July – A universal + + qudit + + quantum processor is demonstrated with trapped ions. + + + + [ + + 393 + + ] + + + + +
- + 15 August – + + + Nature Materials + + + publishes the first work showing optical initialization and coherent control of nuclear spin qubits in 2D materials (an ultrathin hexagonal + + boron nitride + + ). + + + + [ + + 394 + + ] + + + + +
- + 24 August – + + + Nature + + + publishes the first research related to a set of 14 photons entangled with high efficiency and in a defined way. + + + + [ + + 395 + + ] + + + + +
- + 26 August – Created photon pairs at several different frequencies using optical ultra-thin resonant + + metasurfaces + + made up of arrays of + + nanoresonators + + is reported. + + + + [ + + 396 + + ] + + + + +
- + 29 August – Physicists at the + + Max Planck Institute for Quantum Optics + + deterministically generate entangled + + graph states + + of up to 14 photons using a trapped rubidium atom in an optical cavity. + + + + [ + + 397 + + ] + + + + +
- + 2 September – Researchers from The University of Tokyo and other Japanese institutions develop a systematic method that applies optimal control theory (GRAPE algorithm) to identify the theoretically optimal sequence from among all conceivable quantum operation sequences. It is necessary to complete the operations within the time that the coherent quantum state is maintained. + + + + [ + + 398 + + ] + + + + +
- + 30 September – Researchers at University of New South Wales, Australia, achieve a coherence time of two milliseconds, 100 times higher than the previous benchmark in the same quantum processor. + + + + [ + + 399 + + ] + + + + +
- + 9 November – IBM presents its 433-qubit 'Osprey' quantum processor, the successor to its Eagle system. + + + + [ + + 400 + + ] + + + + + + + [ + + 401 + + ] + + + + +
- + 1 December – The world's first portable quantum computer enters into commerce in + + Japan + + . With three variants, topping out at 3 qubits, they are meant for education. They are based on nuclear magnetic resonance (NMR), "NMR has extremely limited scaling capabilities" and + + dimethylphosphite + + . + + + + [ + + 402 + + ] + + + + + + + [ + + 403 + + ] + + + + + + + [ + + 404 + + ] + + + + +
+
+ + 2023 +
+ + + [ + + + + edit + + + + ] + + +-
+
- + 3 February – At the University of Innsbruck, researchers entangle two ions over a distance of 230 meters. + + + + [ + + 405 + + ] + + + + +
- + 8 February – + + Alpine Quantum Technologies + + (AQT) demonstrates a + + quantum volume + + of 128 on its 19-inch rack-compatible quantum computer system PINE – a new record in Europe. + + + + [ + + 406 + + ] + + + + +
- + 17 February – Fusion-based quantum computation is proposed. + + + + [ + + 407 + + ] + + + + +
- + 27 March – India's first quantum computing-based telecom network link is inaugurated. + + + + [ + + 408 + + ] + + + + +
- + 14 June – IBM computer scientists report that a quantum computer produced better results for a + + physics + + problem than a conventional + + supercomputer + + . + + + + [ + + 409 + + ] + + + + + + + [ + + 410 + + ] + + + + +
- + 21 June – + + Microsoft + + declares that it is working on a + + topological quantum computer + + based on + + Majorana fermions + + , with the aim of arriving within 10 years at a computer capable of carrying out at least one million operations per second with an error rate of one operation every 1,000 billion (corresponding to 11 uninterrupted days of calculation). + + + + [ + + 411 + + ] + + + + +
- + 13 October – Researchers at + + TU Darmstadt + + publish the first experimental demonstration of a qubit array with more than 1,000 qubits: + + + + [ + + 412 + + ] + + + + + + + [ + + 413 + + ] + + + + A 3,000-site atomic array based on a 2D configuration of optical tweezers + + + + [ + + 68 + + ] + + + + holds up to 1,305 atomic qubits. + +
- + 24 October – + + Atom Computing + + announces that it has "created a 1,225-site atomic array, currently populated with 1,180 qubits", + + + + [ + + 414 + + ] + + + + based on + + Rydberg atoms + + . + + + + [ + + 415 + + ] + + + + +
- + 4 December – IBM presents its 1121-qubit ' + + Condor + + ' quantum processor, the successor to its + + Osprey + + and + + Eagle + + systems. + + + + [ + + 416 + + ] + + + + + + + [ + + 417 + + ] + + + + The Condor system was the culmination of IBM's multi-year 'Roadmap to Quantum Advantage' seeking to break the 1,000 qubit threshold. + + + + [ + + 418 + + ] + + + + +
- + 6 December – A group led by Misha Lukin at Harvard University realises a programmable quantum processor based on logical qubits using reconfigurable neutral atom arrays. + + + + [ + + 419 + + ] + + + + +
+
+ + 2024 +
+ + + [ + + + + edit + + + + ] + + +-
+
- + 14 February – Researchers at + + UNSW Sydney + + demonstrated control + + + + [ + + 420 + + ] + + + + of + + antimony + + -based materials, including + + antimonides + + , in quantum computing. These materials enable high-dimensional + + Schrödinger-cat + + + quantum states + + ( + + qudits + + ), with enhanced scalability and error resilience, using the nucleus + + spin + + of + + 123Sb antimony + + embedded in + + silicon + + + nanoelectronics + + . + + + + [ + + 421 + + ] + + + + + + + [ + + 422 + + ] + + + + +
- + 21 February – + + UCL + + researchers achieved 97% precision in placing single + + arsenic + + atoms in silicon lattices using + + scanning tunneling microscopy + + , enabling scalable, low-error qubit arrays for quantum computing. + + + + [ + + 423 + + ] + + + + +
- + 25 February – Researchers at the + + California Institute of Technology + + demonstrated multiplexed entanglement generation in quantum network nodes, entangling remote quantum memories using multiple distinct emitters. By embedding + + ytterbium + + atoms in + + yttrium orthovanadate + + (YVO + + 4 + + ) crystals and coupling them to optical cavities, they enabled parallel transmission of entangled photons, scaling the entanglement rate with the number of qubits. + + + + [ + + 424 + + ] + + + + +
- + 12 March – Physicists at + + EPFL + + directly observed dissipative phase transitions (DPTs) in a superconducting + + Kerr resonator + + . Their experiment confirmed both first- and second-order DPTs, revealing critical slowing down and metastability effects, which could lead to more stable quantum computing and ultra-sensitive quantum sensors. + + + + [ + + 425 + + ] + + + + +
- + 1 May – Researchers at Intel show data using a cryogenic 300-mm wafer prober to collect high-volume data on hundreds of industry-manufactured spin qubit devices at 1.6 K. Devices were characterized in the single electrons across full wafers with high yield. + + + + [ + + 426 + + ] + + + + +
- + 6 May – + + Alice & Bob's + + Boson 4 chip demonstrated a bit-flip time of 120 seconds and the world's longest bit-flip lifetime of more than 7 minutes. + + + + [ + + 427 + + ] + + + + + + + [ + + 428 + + ] + + + + + + + [ + + 429 + + ] + + + + +
-
+
- + 8 May – Researchers deterministically fuse small quantum states into states with up to eight qubits. + + + + [ + + 430 + + ] + + + + +
- + 10 May – Researchers from Google and the + + Paul Scherrer Institute + + developed a new hybrid digital-analog quantum simulator, combining the strengths of both techniques. This innovation enhanced the precision and flexibility of quantum computing while enabling more accurate modeling of complex quantum processes. + + + + [ + + 431 + + ] + + + + + + + [ + + f + + ] + + + + +
- + 30 May – Researchers at Photonic and Microsoft perform a teleported CNOT gate between qubits physically separated by 40 meters, confirming remote quantum entanglement between T-centers. + + + + [ + + 432 + + ] + + + + +
- + 30 June – Researchers from + + Oxford University + + successfully linked two quantum processors via an optical fiber network, enabling distributed quantum computing by demonstrating quantum entanglement between distant qubits, paving the way for scalable modular quantum computers and the development of a quantum internet. + + + + [ + + 433 + + ] + + + + +
- + 5 August – Research from + + Brown University + + discovered fractional + + excitons + + in bilayer + + graphene + + under the fractional quantum + + Hall effect + + , expanding excitonic understanding and quantum computing potential. + + + + [ + + 434 + + ] + + + + +
- + 26 August – Researchers at + + Northwestern University + + successfully teleported a quantum state of light over 30 kilometres (19 mi) of fiber optic cable carrying conventional internet traffic, demonstrating the feasibility of integrating quantum communication into existing networks. + + + + [ + + 435 + + ] + + + + +
- + 29 August – Researchers at + + Empa + + successfully constructed a one-dimensional alternating + + Heisenberg model + + using synthetic nanographenes, confirming century-old quantum physics predictions. Their work marked a significant step toward real-world quantum technologies such as ultra-fast computing and unbreakable encryption. + + + + [ + + 436 + + ] + + + + +
- + 2 December – Physicists observed quantum entanglement within individual + + protons + + , demonstrating that entanglement, a key concept in quantum computing, extended to the subatomic level, revealing the complex interdependence of + + quarks + + and + + gluons + + within protons. + + + + [ + + 437 + + ] + + + + +
- + 9 December – Google Quantum AI announced + + Willow + + , the first quantum processor where error-corrected qubits get exponentially better as they get bigger. Willow performed a standard benchmark computation in under five minutes that would take today's fastest supercomputers 10 septillion years. + + + + [ + + 438 + + ] + + + + + + + [ + + 439 + + ] + + + + +
- + 15 December – Researchers at + + Oak Ridge National Laboratory + + in collaboration with + + EPB + + and the + + University of Tennessee + + achieved transmission of entangled quantum signals with 100% uptime through a commercial fiber-optic network for over 30 hours using automatic polarization compensation to prevent disruptions from environmental factors. + + + + [ + + 440 + + ] + + + + + + + [ + + 441 + + ] + + + + + + + [ + + g + + ] + + + + +
- + 25 December – Researchers at Intel demonstrate a test chip with 12 spin-qubits fabricated using immersion and extreme ultraviolet lithography (EUV), along with other standard high-volume manufacturing (HVM) processes. + + + + [ + + 442 + + ] + + + + This doubles the number of spin qubits published in September 2022. + + + + [ + + 443 + + ] + + + + +
+
+ + 2025 +
+ + + [ + + + + edit + + + + ] + + +-
+
- + 7 January – Researchers at + + Osaka Metropolitan University + + derived a simplified formula for quantum entanglement entropy, allowing for easier analysis of entanglement in strongly correlated electron systems. Their study identified unexpected quantum behaviors in nanoscale artificial magnetic materials and highlighted the role of quantum relative entropy in the + + Kondo effect + + . + + + + [ + + 444 + + ] + + + + +
- + 14 February – Researchers (Björkman + + et al. + + ) used + + transmon + + qubits to demonstrate a + + virtual-state + + process of the + + Landau-Zener + + -Stückelberg-Majorana (LZSM) transition. + + + + [ + + 445 + + ] + + + + + + + [ + + 446 + + ] + + + + + + + [ + + 447 + + ] + + + + + + + [ + + 448 + + ] + + + + Their experiment significantly suppressed the AC + + Stark shift + + , improving control over quantum state transitions. + + + + [ + + 445 + + ] + + + + + + + [ + + 449 + + ] + + + + +
- + 19 February – Microsoft announced + + Majorana 1 + + , claiming to be the first qubit architecture based on a + + topological superconductor + + . + + + + [ + + 450 + + ] + + + + +
- + 27 February – + + Amazon + + announced + + + + [ + + 451 + + ] + + + + a quantum computing processor prototype, nicknamed "Ocelot", that uses concatenation of encoded bosonic + + cat + + qubits for bosonic quantum error correction. + + + + [ + + 452 + + ] + + + + +
- + 26 March – Researchers at + + JPMorganChase + + and + + Quantinuum + + announced the realization of + + certified randomness + + , generating publicly certifiable bits using a trapped-ion quantum processor. + + + + [ + + 453 + + ] + + + + + + + [ + + 454 + + ] + + + + +
- + 26 May – Researchers across several institutions, especially + + Google Research + + , present an experimental demonstration of a + + color code + + for both distances 3 and 5. + + + + [ + + 455 + + ] + + + + +
- + 5 August – Researchers at the + + University of Southern California + + discover that combining two kinds of + + anyons + + from + + topological quantum field theory + + , namely + + Ising anyons + + and + + neglectons + + , results in universal quantum computation. + + + + [ + + 456 + + ] + + + + +
- + 30 September – Researchers at the + + Institute of Science Tokyo + + discover quantum + + low-density parity-check codes + + that asymptotically approach the + + hashing bound + + and that can also be decoded in linear time. + + + + [ + + 457 + + ] + + + + +
+
+ + 2026 +
+ + + [ + + + + edit + + + + ] + + +-
+
- + 4 February – Researchers at the + + University of California, Los Angeles + + invent a way to scale + + quantum error correction + + automated testing for distances up to 17. + + + + [ + + 458 + + ] + + + + +
- + 21 February – Researchers at the + + Norwegian University of Science and Technology + + discover that an alloy of + + niobium + + and + + rhenium + + could potentially function as a + + triplet superconductor + + for temperatures up to 7 K (−266.15 °C; −447.07 °F). + + + + [ + + 459 + + ] + + + + +
- + 25 February – + + Origin Pilot + + , a quantum operating system developed by + + Origin Quantum Computing Technology Co + + (based in + + Hefei + + , China), is open-sourced. + + + + [ + + 460 + + ] + + + + +
- + 26 February – + + IonQ + + , in coordination with the + + National University of Science and Technology + + and + + RoEduNet + + , deploy a nationwide + + quantum key distribution + + network across Romania, spanning 36 quantum links. + + + + [ + + 461 + + ] + + + + +
+
+ + See also +
+ + + [ + + + + edit + + + + ] + + +-
+
- + + List of companies involved in quantum computing or communication + + +
- + + List of quantum processors + + +
- + + Category: Quantum information scientists + + +
- + + Timeline of computing 2020–present + + +
+
+
+ + Notes +
+ + + [ + + + + edit + + + + ] + + +
+
+
+
+ -
+
- + + + + ^ + + + + + The theorem is now known as Schrödinger–HJW theorem. + + +
- + + + + ^ + + + + + Published January 1, 1983. + + + + [ + + 4 + + ] + + + + + + + [ + + 5 + + ] + + + + 1968 is the year Wiesner developed a new coding in the Columbia University timeline + + + + [ + + 6 + + ] + + + + and of the relevant publication in + + Charles H. Bennett + + (2021) citing Bennett CH, Bessette F, + + Brassard G + + , Salvail L, + + Smolin J + + (1992) " + + Experimental quantum cryptography. + + " + + J Cryptol + + 5(1): 3–28. In Bennett, Bessette + + et al + + . (1992) the year of "manuscript written" by Wiesner is " + + circa + + 1970". + + + + [ + + 7 + + ] + + + + + +
- + + + + ^ + + + + + Some sources state that: an idea in Park's paper was used as + + + + [ + + 11 + + ] + + + + information for what was later undertood by proof as the + + no-cloning theorem + + circa 1982. + + + + [ + + 10 + + ] + + + + + + + [ + + 11 + + ] + + + + An alternative position is: the no-cloning theorem was discovered in 1982 without mentioning 1969/1970. + + + + [ + + 12 + + ] + + + + + + + [ + + 13 + + ] + + + + Sources state Park proved mathematically no-cloning explicitly as a reality + + + + [ + + 14 + + ] + + + + + + + [ + + 15 + + ] + + + + though his paper makes no mention explicitly of the term as it is now known. + + + + [ + + 9 + + ] + + + + + + + [ + + 16 + + ] + + + + An alternative position: simply, Park 1970 was the origin of the no-cloning theorem without mentioning 1982. + + + + [ + + 17 + + ] + + + + One further position states Park was first to show the existence of no-cloning - this quantum mechanical reality was rediscovered in 1982 and 2013. + + + + [ + + 18 + + ] + + + + + +
- + + + + ^ + + + + + Holevo's paper is the first published on the subject of + + quantum information + + according to the + + Stanford Encyclopedia of Philosophy + + (Michael Cuffaro) + + + + [ + + 19 + + ] + + + + + +
- + + + + ^ + + + + + Submission received by the + + IJoTP + + : May 7, 1981 + + +
- + + + + ^ + + + + + Publisher received: 10 May 2024 + + +
- + + + + ^ + + + + + Scitechdaily ( + + OAK RIDGE NATIONAL LABORATORY + + ) indicates publication date 15 December 2024 + + +
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-
+
+
+
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+
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+
+
+
+
+ 115th Congress (2018) (June 26, 2018).
+
+ "H.R. 6227 (115th)"
+
+ .
+
+ Legislation
+
+ . GovTrack.us
+
+ . Retrieved
+
+ February 11,
+
+ 2019
+
+ .
+
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- + + + + ^ + + + + + + + Medzerian, David (August 5, 2025). + + " + + + 'Neglected' particles that could rescue quantum computing" + + . + + USC Today + + + . Retrieved + + February 27, + + 2026 + + . + + + + + +
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- + + + + ^ + + + + + + + + "China's quantum computer operating system Origin Pilot opens for public download" + + . + + english.news.cn + + + . Retrieved + + February 27, + + 2026 + + . + + + + + +
- + + + + ^ + + + + + + + + "IonQ | IonQ Powers Romania's Massive New Quantum Network (RoNaQCI)" + + . + + www.ionq.com + + + . Retrieved + + February 27, + + 2026 + + . + + + + + +
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