Experimental Implementation of Encoded Logical Qubit Operations
... results for the X initial state, NOT gate, and BS4 error, and (d) for Z initial state, H gate, and B5 error. The insets show enlarged partial spectra containing the main signal components, with the experimental spectra represented by dashed lines, the ideal spectra as full lines. Experimental and th ...
... results for the X initial state, NOT gate, and BS4 error, and (d) for Z initial state, H gate, and B5 error. The insets show enlarged partial spectra containing the main signal components, with the experimental spectra represented by dashed lines, the ideal spectra as full lines. Experimental and th ...
Slides
... The world is demanding more bandwidth, so data distributors will become more reliant on all-optical switching Worldwide data usage is increasing every year ...
... The world is demanding more bandwidth, so data distributors will become more reliant on all-optical switching Worldwide data usage is increasing every year ...
Quantum Computing and Parallel (Multicore) Processing
... times you will each base state will be the same for a large number of runs. This is illustrated using the circle representation above. ...
... times you will each base state will be the same for a large number of runs. This is illustrated using the circle representation above. ...
Size-dependent properties of CdSe quantum dots
... growth. For QD, such defects will be more prevalent as compared to bulk materials because of the increase in the relative surface area. Specific magnetic clusters created by the donoracceptor pairs can exhibit paramagnetic behavior.17 On the surfaces of semiconductors, the free dangling bond bears a ...
... growth. For QD, such defects will be more prevalent as compared to bulk materials because of the increase in the relative surface area. Specific magnetic clusters created by the donoracceptor pairs can exhibit paramagnetic behavior.17 On the surfaces of semiconductors, the free dangling bond bears a ...
High-fidelity Z-measurement error encoding of optical qubits
... ment outcome, acts as a decoder. The CNOT gate used in our demonstration is shown schematically in Fig. 1共b兲. It operates nondeterministically and successful events are postselected by coincidence measurements. For a detailed description of its operation see Ref. 关10兴. Pairs of energy degenerate non ...
... ment outcome, acts as a decoder. The CNOT gate used in our demonstration is shown schematically in Fig. 1共b兲. It operates nondeterministically and successful events are postselected by coincidence measurements. For a detailed description of its operation see Ref. 关10兴. Pairs of energy degenerate non ...
Documentation
... One of the most important consequences that runnable quantum computers with a register of about 1 kq (1000 qubit) is that all current public key systems will be cracked!1 OK, this may last one or more decades from now, but quantum computation is a problem (as well as a solution, by the way, since it ...
... One of the most important consequences that runnable quantum computers with a register of about 1 kq (1000 qubit) is that all current public key systems will be cracked!1 OK, this may last one or more decades from now, but quantum computation is a problem (as well as a solution, by the way, since it ...
Quantum Computer
... quantum computer built 2001 - Shor's algorithm executed on 7 qubit computer 2005 - First qubyte created 2009 - Yale creates solidstate quantum processor 2011 - D-Wave announces commercial quantum computer 2011 – Record computation of 3x5=15 ...
... quantum computer built 2001 - Shor's algorithm executed on 7 qubit computer 2005 - First qubyte created 2009 - Yale creates solidstate quantum processor 2011 - D-Wave announces commercial quantum computer 2011 – Record computation of 3x5=15 ...
Another version - Scott Aaronson
... Presents an obvious practical problem when using conventional computers to simulate quantum mechanics ...
... Presents an obvious practical problem when using conventional computers to simulate quantum mechanics ...
ppt
... S. L. Braunstein, quant-ph/9904002; see also R. S. Bennink and R. W. Boyd, Phys. Rev. A 66, 053815 (2002) ...
... S. L. Braunstein, quant-ph/9904002; see also R. S. Bennink and R. W. Boyd, Phys. Rev. A 66, 053815 (2002) ...
Dima Geshkenbian
... If one has N quantum two level systems (e.g. L spins) they can have 2 different states. To describe such a system in classical computer one needs to have 2 L complex numbers, that requires exponentially large computational resources. Thus modeling even small quantum system on a classical computer is ...
... If one has N quantum two level systems (e.g. L spins) they can have 2 different states. To describe such a system in classical computer one needs to have 2 L complex numbers, that requires exponentially large computational resources. Thus modeling even small quantum system on a classical computer is ...
Testing Heisenberg`s Uncertainty Principle with
... While more than a century old, quantum mechanics still evokes immerse interest in its promises for future computers, cryptation and materials. An experiment carried out in 1922 by two scientists named Otto Stern and Walther Gerlach, together with a series of other experiments, have given us insight ...
... While more than a century old, quantum mechanics still evokes immerse interest in its promises for future computers, cryptation and materials. An experiment carried out in 1922 by two scientists named Otto Stern and Walther Gerlach, together with a series of other experiments, have given us insight ...
The principle of a finite density of information
... is correlated to the old idea that there is no way to know a magnitude with an infinite precision. It takes different forms in classical Physics and in quantum Physics. ...
... is correlated to the old idea that there is no way to know a magnitude with an infinite precision. It takes different forms in classical Physics and in quantum Physics. ...