Holography, de Sitter space and SUSY breaking
... Maximum number of particles o(M1/2) with max momentum ~ M1/2 /R: M3/2 entropy This coincides with field theory counting for states with no large black holes Momentum restricts # of allowed spherical harmonics in wave function on sphere at infinity (pixelation) Momentum p(1, W): p determined by size ...
... Maximum number of particles o(M1/2) with max momentum ~ M1/2 /R: M3/2 entropy This coincides with field theory counting for states with no large black holes Momentum restricts # of allowed spherical harmonics in wave function on sphere at infinity (pixelation) Momentum p(1, W): p determined by size ...
Quantum transfer operators and chaotic scattering Stéphane
... set Γ is a fractal set included inside B(0, R), and T is uniformly hyperbolic on Γ. We may then expect this dynamical structure to imply some form of quantum decay:√ indeed, a quantum state cannot be localized on a ball of radius smaller than h, and such a ball is not fully contained in Γ, so most o ...
... set Γ is a fractal set included inside B(0, R), and T is uniformly hyperbolic on Γ. We may then expect this dynamical structure to imply some form of quantum decay:√ indeed, a quantum state cannot be localized on a ball of radius smaller than h, and such a ball is not fully contained in Γ, so most o ...
What is the Spin Content of Stern-Gerlach?
... The answer is: not at all! This is one of the points that Niels Bohr made in his doctoral dissertation in 1911, two years before addressing the issue of the stability of the hydrogen atom. The result, later rediscovered by H.J. van Leeuwen was amplified and formalized in Van Vleck’s 1932 text on ele ...
... The answer is: not at all! This is one of the points that Niels Bohr made in his doctoral dissertation in 1911, two years before addressing the issue of the stability of the hydrogen atom. The result, later rediscovered by H.J. van Leeuwen was amplified and formalized in Van Vleck’s 1932 text on ele ...
Quantum Electronics
... computer components can. It is not so much that they solve different kinds of problems but that they make some kinds of very difficult problems easier to solve in a time frame that makes them practical. One difficult problem is encryption and decryption. We always want to find ways of making data mo ...
... computer components can. It is not so much that they solve different kinds of problems but that they make some kinds of very difficult problems easier to solve in a time frame that makes them practical. One difficult problem is encryption and decryption. We always want to find ways of making data mo ...
Hybrid_Quantu_Classic_Dynamics!!
... Strengths of Hybrid Approach • Electronic and nuclear quantum effects included • Motion of complete solvated enzyme included • Enables calculation of rates and KIEs • Elucidates fundamental nature of nuclear quantum effects • Provides thermally averaged, equilibrium information • Provides real-time ...
... Strengths of Hybrid Approach • Electronic and nuclear quantum effects included • Motion of complete solvated enzyme included • Enables calculation of rates and KIEs • Elucidates fundamental nature of nuclear quantum effects • Provides thermally averaged, equilibrium information • Provides real-time ...
The Future of Computer Science
... Feynman 1981: So then why not turn things around, and build computers that themselves exploit superposition? Could such a machine get any advantage over a classical computer with a random number generator? If so, it would have to come from interference between amplitudes ...
... Feynman 1981: So then why not turn things around, and build computers that themselves exploit superposition? Could such a machine get any advantage over a classical computer with a random number generator? If so, it would have to come from interference between amplitudes ...
Time in Quantum Theory
... eigenstates, which cannot have sharp spatial boundaries because of Casimir type effects (in principle observable for moving mirrors); all bounded systems must relativistically be in superpositions of diffent particle numbers. In the theory of relativity, proper times assume the role of Newton's abso ...
... eigenstates, which cannot have sharp spatial boundaries because of Casimir type effects (in principle observable for moving mirrors); all bounded systems must relativistically be in superpositions of diffent particle numbers. In the theory of relativity, proper times assume the role of Newton's abso ...
Energy levels, photons and spectral lines
... Energy levels, photons and spectral lines Louis de Broglie showed that electrons are standing waves that have mass and charge ...
... Energy levels, photons and spectral lines Louis de Broglie showed that electrons are standing waves that have mass and charge ...
Discovery of the Electron, Models & Theories
... Heisenberg also went off of Bohr’s model and elaborated more into quantum mechanics to explain the wave motion of electrons instead of a ...
... Heisenberg also went off of Bohr’s model and elaborated more into quantum mechanics to explain the wave motion of electrons instead of a ...
Quantum Computation
... But the result of QFT is stored as amplitudes, it can not be read. But QC can find periodicity. 1994-Peter Shor – can be used to factorize large numbers. Is RSA encryption in danger? ...
... But the result of QFT is stored as amplitudes, it can not be read. But QC can find periodicity. 1994-Peter Shor – can be used to factorize large numbers. Is RSA encryption in danger? ...
