Gentzen-Like Methods in Quantum Logic*
... In that work, he proposed to regard projection operators over a given Hilbert space to represent certain propositions of a corresponding quantum-mechanical system. Later on, in a joint paper with Garrett Birkhoff, this “logic of projection operators” has been given a more elaborated treatment, chara ...
... In that work, he proposed to regard projection operators over a given Hilbert space to represent certain propositions of a corresponding quantum-mechanical system. Later on, in a joint paper with Garrett Birkhoff, this “logic of projection operators” has been given a more elaborated treatment, chara ...
College 10: Quantum computing
... Each point on a wave front becomes a source of a spherical wave. ...
... Each point on a wave front becomes a source of a spherical wave. ...
Quantum Chaos
... (Gaussian) before the modulated optical potential is applied. Then, let the system evolve with the modulated potential during few tens of periods. The standing wave is modulated at a frequency of the order of 10100 kHz (Cs atoms) or 100200 kHz (Na atoms) effective ℏ of the order of 0.2 to 1. S ...
... (Gaussian) before the modulated optical potential is applied. Then, let the system evolve with the modulated potential during few tens of periods. The standing wave is modulated at a frequency of the order of 10100 kHz (Cs atoms) or 100200 kHz (Na atoms) effective ℏ of the order of 0.2 to 1. S ...
Path integral Monte Carlo study of the interacting quantum double-well... Quantum phase transition and phase diagram
... this to be the case and check whether our data are compatible with this. We choose a fixed value of the aspect ratio L / , corresponding to z = 1, so that the finite-size scaling function of these quantities involves only one variable—i.e., O = L−xOÕ共␦L1/兲. For a given V0, the deviation from the ...
... this to be the case and check whether our data are compatible with this. We choose a fixed value of the aspect ratio L / , corresponding to z = 1, so that the finite-size scaling function of these quantities involves only one variable—i.e., O = L−xOÕ共␦L1/兲. For a given V0, the deviation from the ...
The Transactional Interpretation of Quantum Mechanics http://www
... Experiment: A cat is placed in a sealed box containing a device that has a 50% probability of killing the cat. Question 1: When does the wave function collapse? What is the wave function of the cat just before the box is opened? (Y = ½ dead + ½ alive?) Question 2: If we observe Schrödinger, what is ...
... Experiment: A cat is placed in a sealed box containing a device that has a 50% probability of killing the cat. Question 1: When does the wave function collapse? What is the wave function of the cat just before the box is opened? (Y = ½ dead + ½ alive?) Question 2: If we observe Schrödinger, what is ...
Krishnendu-Sengupta
... Fast quench from the Mott to the SF phase; study of superfluid dynamics. Single frequency pattern near the critical point; more complicated deeper in the SF phase. Strong quantum fluctuations near the QCP; justification of going beyond mft. ...
... Fast quench from the Mott to the SF phase; study of superfluid dynamics. Single frequency pattern near the critical point; more complicated deeper in the SF phase. Strong quantum fluctuations near the QCP; justification of going beyond mft. ...
Simple Resonance Hierarchy for Surmounting Quantum Uncertainty
... fundamental empirical fact demonstrated by the Stern-Gerlach experiment where space quantization occurs for example along an arbitrary z axis by continuous application of a non-uniform magnetic field to atomic spin structure [1], or by Young’s double-slit experiment [2]. This scenario is cast in sto ...
... fundamental empirical fact demonstrated by the Stern-Gerlach experiment where space quantization occurs for example along an arbitrary z axis by continuous application of a non-uniform magnetic field to atomic spin structure [1], or by Young’s double-slit experiment [2]. This scenario is cast in sto ...
Feeling the Future again
... characterized by events that have been real and could in principle be described by facts. In other words the past is consciously knowable and the future is not (yet) consciously accessible. The author also emphasizes a strong relationship between the passage of time and the emergence of conscious ex ...
... characterized by events that have been real and could in principle be described by facts. In other words the past is consciously knowable and the future is not (yet) consciously accessible. The author also emphasizes a strong relationship between the passage of time and the emergence of conscious ex ...
Homework No. 07 (Spring 2015) PHYS 530A: Quantum Mechanics II
... 4. (20 points.) (Schwinger’s QM book, Prob. 3-4a.) Iso(topic) spin T : The nucleon is a particle of isospin T = 21 ; the state with T3 = 21 is the proton (p), the state with T3 = − 12 is the neutron (n). Electric charge of a nucleon is given by Q = 21 + T3 . The π meson, or pion, has isospin T = 1, ...
... 4. (20 points.) (Schwinger’s QM book, Prob. 3-4a.) Iso(topic) spin T : The nucleon is a particle of isospin T = 21 ; the state with T3 = 21 is the proton (p), the state with T3 = − 12 is the neutron (n). Electric charge of a nucleon is given by Q = 21 + T3 . The π meson, or pion, has isospin T = 1, ...
