Open Quantum System Studies of Optical Lattices and Nonlinear
... A generalized open quantum theory that models the transport properties of bosonic systems is derived from first principles. This theory is shown to correctly describe the long-time behavior of a specific class of non-Markovian system-reservoir interactions. Starting with strongly-interacting bosons ...
... A generalized open quantum theory that models the transport properties of bosonic systems is derived from first principles. This theory is shown to correctly describe the long-time behavior of a specific class of non-Markovian system-reservoir interactions. Starting with strongly-interacting bosons ...
Evolving Notions of Security for Quantum Protocols
... All* QKD protocols have simulator! [BHLMO ‘05] ...
... All* QKD protocols have simulator! [BHLMO ‘05] ...
The Physical Vacuum: Where Particle Physics Meets Cosmology
... ½ of nucleon mass – from QCD vacuum ...
... ½ of nucleon mass – from QCD vacuum ...
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... Deep mathematical reasons require that quantum particles in three dimensions must be either fermions or bosons. In two dimensions, another possibility arises: the factor might be a complex phase. A complex phase can be thought of as an angle. Zero degrees corresponds to the number one; 180 degrees i ...
... Deep mathematical reasons require that quantum particles in three dimensions must be either fermions or bosons. In two dimensions, another possibility arises: the factor might be a complex phase. A complex phase can be thought of as an angle. Zero degrees corresponds to the number one; 180 degrees i ...
Quantum approach to Image processing
... realized that the classical storage requirements for quantum systems grow exponentially in the number of particles. So while simulating twenty quantum particles only requires storing a million values, doubling this to a forty particle simulation would require a trillion values. Interesting simulatio ...
... realized that the classical storage requirements for quantum systems grow exponentially in the number of particles. So while simulating twenty quantum particles only requires storing a million values, doubling this to a forty particle simulation would require a trillion values. Interesting simulatio ...
Supmech: the Geometro-statistical Formalism Underlying Quantum
... (for an autonomous development of QM) laid down in Ref.[2], namely (i) the basic concepts and equations of QM should be developed autonomously; (ii) there should be a framework which can accommodate both QM and CM (classical mechanics); in this framework, the basic concepts and equations of CM shoul ...
... (for an autonomous development of QM) laid down in Ref.[2], namely (i) the basic concepts and equations of QM should be developed autonomously; (ii) there should be a framework which can accommodate both QM and CM (classical mechanics); in this framework, the basic concepts and equations of CM shoul ...
A Comparative Study of Hole and Electron Inversion Layer
... To solve the Schrödinger’s equation, some approximations are required. These are triangular well approximation and variation approximation. Using these approximations, the Schrödinger’s equation generates the electron energies and hence the electron potentials. The shift in electron potentials is th ...
... To solve the Schrödinger’s equation, some approximations are required. These are triangular well approximation and variation approximation. Using these approximations, the Schrödinger’s equation generates the electron energies and hence the electron potentials. The shift in electron potentials is th ...
Chapter 4 Aqueous Reactions and Solution Stoichiometry
... Separate the reactions into oxidation and reduction processes Work with one (ox or red) first Balance number of non-oxygen, non-hydrogen atoms first. Then balance oxygen with water Then balance hydrogen with H+ Then balance charge with electrons. Then balance other half-reaction using steps 3 throug ...
... Separate the reactions into oxidation and reduction processes Work with one (ox or red) first Balance number of non-oxygen, non-hydrogen atoms first. Then balance oxygen with water Then balance hydrogen with H+ Then balance charge with electrons. Then balance other half-reaction using steps 3 throug ...
