How “Quantum” is the D-Wave Machine?
... also claimed based on extensive experiments that the D-Wave machine exhibits large-scale quantum behavior. While falling far short of the existence of a working quantum computer, this conclusion is nonetheless very exciting, since it suggests that it might be possible to create large-scale entangle ...
... also claimed based on extensive experiments that the D-Wave machine exhibits large-scale quantum behavior. While falling far short of the existence of a working quantum computer, this conclusion is nonetheless very exciting, since it suggests that it might be possible to create large-scale entangle ...
A parallel repetition theorem for entangled projection
... Remarkably, the precise definition of the value depends on the physical interpretation that is given to the condition of spatial isolation. Under classical theory, isolated players are fully described by the functions that each apply to their respective question in order to determine their answer, a ...
... Remarkably, the precise definition of the value depends on the physical interpretation that is given to the condition of spatial isolation. Under classical theory, isolated players are fully described by the functions that each apply to their respective question in order to determine their answer, a ...
Quantum Structures
... relativistic formulations, to the concept of the Dirac sea of electrons, to a break between classical mechanics and quantum mechanics, to quantum field theory at a point, etc. We shall review the literature of the time showing what prominent physicists thought concerning these problems, as well as g ...
... relativistic formulations, to the concept of the Dirac sea of electrons, to a break between classical mechanics and quantum mechanics, to quantum field theory at a point, etc. We shall review the literature of the time showing what prominent physicists thought concerning these problems, as well as g ...
The uncertainty relations in quantum mechanics
... all the members have sharply defined values for the canonically conjugate variables. This minimal interpretation states that it is not possible to prepare pure ensembles in which all systems have the same values for these quantities, or ensembles in which the spreads are smaller than allowed by quan ...
... all the members have sharply defined values for the canonically conjugate variables. This minimal interpretation states that it is not possible to prepare pure ensembles in which all systems have the same values for these quantities, or ensembles in which the spreads are smaller than allowed by quan ...
Ph.D. thesis - Chin Lab at the University of Chicago
... built to last, Skyler Degenkolb for his work on setting up a high-resolution imaging system, Andreas Klinger for setting up the NPRO laser breadboard and testing the dual-wavelength optical lattice setup. I thank Peter Scherpelz for his quality work in both the LiCs lab and the cesium lab (late 2009 ...
... built to last, Skyler Degenkolb for his work on setting up a high-resolution imaging system, Andreas Klinger for setting up the NPRO laser breadboard and testing the dual-wavelength optical lattice setup. I thank Peter Scherpelz for his quality work in both the LiCs lab and the cesium lab (late 2009 ...
Algorithms for entanglement renormalization
... a 2D square lattice. It is natural to ask, given a lattice geometry, what realization of the MERA is the most convenient from a computational point of view. A definitive answer to ...
... a 2D square lattice. It is natural to ask, given a lattice geometry, what realization of the MERA is the most convenient from a computational point of view. A definitive answer to ...
New efficient integral algorithms for quantum chemistry
... Many programmers of the time were reluctant to use a high-level language due to concerns about performance loss, which prompted IBM to develop the first optimizing compilers for FORTRAN. The generally good performance of the compiled programs popularized FORTRAN amongst scientists, until the languag ...
... Many programmers of the time were reluctant to use a high-level language due to concerns about performance loss, which prompted IBM to develop the first optimizing compilers for FORTRAN. The generally good performance of the compiled programs popularized FORTRAN amongst scientists, until the languag ...
KINETIC EQUATION FOR SOLITONS illjl = -4 (.!._)` ljJ -~( u
... from the usual kinetics of waves in nonlinear media and is "reversible." It is not clear at present whether this property is exclusive for KDV systems or whether it takes place also for some other nonlinear systems. In conclusion, the author thanks A. B. Shabat for certain valuable remarks. ...
... from the usual kinetics of waves in nonlinear media and is "reversible." It is not clear at present whether this property is exclusive for KDV systems or whether it takes place also for some other nonlinear systems. In conclusion, the author thanks A. B. Shabat for certain valuable remarks. ...
Unconditionally Secure Quantum Signatures
... a judge) would also accept the signature. It is important to stress that for transferability, a recipient should be able to test, upon receipt of a signed message and without any further interaction with any other party, whether one or more other recipients are likely to accept the message if it is ...
... a judge) would also accept the signature. It is important to stress that for transferability, a recipient should be able to test, upon receipt of a signed message and without any further interaction with any other party, whether one or more other recipients are likely to accept the message if it is ...
Classical Simulation of Quantum Systems
... of many-body systems are now possible for quite large particle numbers N. Nevertheless, classical many-body physics is far from being fully explored. In quantum mechanical problems, computations are much more difficult due to the fact that the dimension of the Hilbert space of a quantum system grows ...
... of many-body systems are now possible for quite large particle numbers N. Nevertheless, classical many-body physics is far from being fully explored. In quantum mechanical problems, computations are much more difficult due to the fact that the dimension of the Hilbert space of a quantum system grows ...
