Negative temperature, Math dept talk
... second law. It lacks additivity important for the validity of thermodynamics • For classical systems, SG satisfies an exact adiabatic invariance (due to Hertz) while Boltzmann entropy does not. However, the violations are of order 1/N and go away for large systems • Thermodynamics is a macroscopic t ...
... second law. It lacks additivity important for the validity of thermodynamics • For classical systems, SG satisfies an exact adiabatic invariance (due to Hertz) while Boltzmann entropy does not. However, the violations are of order 1/N and go away for large systems • Thermodynamics is a macroscopic t ...
Coulomb blockade in the fractional quantum Hall effect regime *
... liquid 共CLL兲 theory2,3 has successfully predicted transport and spectral properties of sharply confined FQHE systems near the center of the ⫽1/3 plateau,4 the situation at other filling factors5 and in smooth-edged geometries6 is poorly understood. This has motivated us to consider an alternative ...
... liquid 共CLL兲 theory2,3 has successfully predicted transport and spectral properties of sharply confined FQHE systems near the center of the ⫽1/3 plateau,4 the situation at other filling factors5 and in smooth-edged geometries6 is poorly understood. This has motivated us to consider an alternative ...
Testing the Symmetrization Postulate of Quantum Mechanics and
... a violation with a significant sensitivity. This is one case, in fact, in which a small deviation from normal statistics would usually produce only a small signal over a large background. An attempt to set a limit to a possible violation of Bose statistics was made in [15], based on light intensitie ...
... a violation with a significant sensitivity. This is one case, in fact, in which a small deviation from normal statistics would usually produce only a small signal over a large background. An attempt to set a limit to a possible violation of Bose statistics was made in [15], based on light intensitie ...
Experimental one-way quantum computing
... computer proposed by Raussendorf and Briegel is entirely different. It has changed our understanding of the requirements for quantum computation and more generally how we think about quantum physics. This new model requires qubits to be initialized in a highly entangled cluster state. From this poin ...
... computer proposed by Raussendorf and Briegel is entirely different. It has changed our understanding of the requirements for quantum computation and more generally how we think about quantum physics. This new model requires qubits to be initialized in a highly entangled cluster state. From this poin ...
Slide 1
... • Due to quantum tunneling the number of electrons in the body experiences quantum fluctuations and is not an integer • One therefore needs a description that treats the particle number N as a quantum variable Wave function for system of N electrons: ...
... • Due to quantum tunneling the number of electrons in the body experiences quantum fluctuations and is not an integer • One therefore needs a description that treats the particle number N as a quantum variable Wave function for system of N electrons: ...
An introduction to quantum probability, quantum mechanics, and
... complex-valued random variables, then xy and yx are the same random variable. In quantum probability, this commutative algebra is replaced by a non-commutative algebra called a von Neumann algebra. The remaining definitions stay as much the same as possible. We will mostly consider finite-dimensiona ...
... complex-valued random variables, then xy and yx are the same random variable. In quantum probability, this commutative algebra is replaced by a non-commutative algebra called a von Neumann algebra. The remaining definitions stay as much the same as possible. We will mostly consider finite-dimensiona ...
Heralded atomic-ensemble quantum memory for photon polarization states
... photon to a small area containing the atom, and passing it through this area many times using mirrors with very low loss [10]. In the optical domain an opacity (or resonant optical depth η) of ∼100 can be achieved in this way [10, 11]. An alternative method for increasing the optical depth is to use ...
... photon to a small area containing the atom, and passing it through this area many times using mirrors with very low loss [10]. In the optical domain an opacity (or resonant optical depth η) of ∼100 can be achieved in this way [10, 11]. An alternative method for increasing the optical depth is to use ...
CBO_Paper3_ConsciousnessandQuantumMechanics
... Furthermore, it is in conjunction with epiphenomenalism, which involves the principle that consciousness is the response to physical processes inside of the body. For example, if someone’s heart is beating fast, a person’s consciousness interprets this as fear. However, the problem with this princip ...
... Furthermore, it is in conjunction with epiphenomenalism, which involves the principle that consciousness is the response to physical processes inside of the body. For example, if someone’s heart is beating fast, a person’s consciousness interprets this as fear. However, the problem with this princip ...
. of Statistica. nterpretation
... its experimental surroundings, with a beam of particles, which is another kind of (many-particle) system. A beam may simulate an ensemble of single-particle systems if the intensity of the beam is so low that only one particle is present at a time. The ensembles contemplated here are different in pr ...
... its experimental surroundings, with a beam of particles, which is another kind of (many-particle) system. A beam may simulate an ensemble of single-particle systems if the intensity of the beam is so low that only one particle is present at a time. The ensembles contemplated here are different in pr ...
