RESEARCH STATEMENT I had my training in theoretical physics
... dynamics and statistical physics. My research employs a combination of analytical calculations and large-scale numerical simulations (Monte Carlo simulations, integration of ordinary and stochastic differential equations for molecular dynamics, matrix diagonalization). The main points of my research ...
... dynamics and statistical physics. My research employs a combination of analytical calculations and large-scale numerical simulations (Monte Carlo simulations, integration of ordinary and stochastic differential equations for molecular dynamics, matrix diagonalization). The main points of my research ...
Quantum Theory of Hydrogen
... Section 6.7 contains much of the “testable” material of chapter 6. The earlier sections are important (especially quantum numbers and angular momentum) but many of the problems come from 6.7, so be sure to study it well. Important ideas (quantum mechanics works very well for describing the hydrogen ...
... Section 6.7 contains much of the “testable” material of chapter 6. The earlier sections are important (especially quantum numbers and angular momentum) but many of the problems come from 6.7, so be sure to study it well. Important ideas (quantum mechanics works very well for describing the hydrogen ...
Quantum Clustering Algorithms - The International Machine
... one another, whereas other computational paths that would yield an undesired result cancel each other out. Finally, there exist multi-particle quantum states that cannot be described by an independent state for each particle (Einstein, Podolsky & Rosen, 1935). The correlations offered by these state ...
... one another, whereas other computational paths that would yield an undesired result cancel each other out. Finally, there exist multi-particle quantum states that cannot be described by an independent state for each particle (Einstein, Podolsky & Rosen, 1935). The correlations offered by these state ...
Entanglement and Quantum Teleportation
... Interpreting superdense coding Alice has managed to communicate two bits of information to Bob by sending only one qubit, provided they shared a Bell state to start To create and share a Bell state, they must have (at some point) transmitted a qubit, although this transmission could be in either di ...
... Interpreting superdense coding Alice has managed to communicate two bits of information to Bob by sending only one qubit, provided they shared a Bell state to start To create and share a Bell state, they must have (at some point) transmitted a qubit, although this transmission could be in either di ...
here
... Emergent quantum phases in correlated spin-orbit coupled materials. Abbreviations are as follows: TME = topological magnetoelectric effect, (F)QHE = (fractional) quantum Hall effect. Correlations are W-I = weak-intermediate, I = intermediate (requiring magnetic order, say, but mean field-like), and ...
... Emergent quantum phases in correlated spin-orbit coupled materials. Abbreviations are as follows: TME = topological magnetoelectric effect, (F)QHE = (fractional) quantum Hall effect. Correlations are W-I = weak-intermediate, I = intermediate (requiring magnetic order, say, but mean field-like), and ...
Constructor theory of information - Proceedings of the Royal Society A
... We call these construction tasks, or tasks for short. In general, a task A on a substrate S is a set A = {x1 → y1 , x2 → y2 , . . .} where the x1 , x2 . . . and the y1 , y2 . . . are attributes of S. We call the {xi } = In(A) the legitimate input attributes of A and the {yi } = Out(A) its legitimate ...
... We call these construction tasks, or tasks for short. In general, a task A on a substrate S is a set A = {x1 → y1 , x2 → y2 , . . .} where the x1 , x2 . . . and the y1 , y2 . . . are attributes of S. We call the {xi } = In(A) the legitimate input attributes of A and the {yi } = Out(A) its legitimate ...
E + - IPAM
... Hamiltonian if it acts on a system of d-state particles and can be written as a sum of terms, each of which acts non-trivially on a set of k particles. • H is an r-dimensional d-state Hamiltonian if it is a d-state 2-local Hamiltonian and each term interacts non-trivially on only nearest neighbor pa ...
... Hamiltonian if it acts on a system of d-state particles and can be written as a sum of terms, each of which acts non-trivially on a set of k particles. • H is an r-dimensional d-state Hamiltonian if it is a d-state 2-local Hamiltonian and each term interacts non-trivially on only nearest neighbor pa ...
Spinning Electrons and the Structure of Spectra
... the atom is Jh/2π, where J = 1, 2, 3. The symbols K and J correspond to those used by Landé in his classification of the Zeeman effects of the optical spectra which we consider below. The dotted lines represent the position of the energy levels to be expected in the absence of the spin of the electr ...
... the atom is Jh/2π, where J = 1, 2, 3. The symbols K and J correspond to those used by Landé in his classification of the Zeeman effects of the optical spectra which we consider below. The dotted lines represent the position of the energy levels to be expected in the absence of the spin of the electr ...
chapter 10. relation to quantum mechanics
... conversely, that the fundamental map π and the premise space S have meaning in the quantum mechanics. And the quantum mechanical notion of state must have an observer-theoretic interpretation consistent with these meanings. These interpretations will emerge most clearly when we realize the framework ...
... conversely, that the fundamental map π and the premise space S have meaning in the quantum mechanics. And the quantum mechanical notion of state must have an observer-theoretic interpretation consistent with these meanings. These interpretations will emerge most clearly when we realize the framework ...
Introductory Quantum Optics Section 1. Single photon physics
... • M. O. Scully and M. S. Zubairy, Quantum Optics, Cambridge University Press (Cambridge, 1997). • S. M. Barnett and P. M. Radmore, Methods in Theoretical Quantum Optics, Oxford University Press (Oxford, 1997). Enjoy the course! ...
... • M. O. Scully and M. S. Zubairy, Quantum Optics, Cambridge University Press (Cambridge, 1997). • S. M. Barnett and P. M. Radmore, Methods in Theoretical Quantum Optics, Oxford University Press (Oxford, 1997). Enjoy the course! ...
One-way quantum computing with arbitrarily large time
... alternative to the circuit model [4], which is being more widely pursued [5]. In one-way quantum computing, the primitives of the universal gate set are pre-encoded in a “quantum substrate” that is a generic, yet precise, entangled cluster state described by a graph specifying the entanglement struc ...
... alternative to the circuit model [4], which is being more widely pursued [5]. In one-way quantum computing, the primitives of the universal gate set are pre-encoded in a “quantum substrate” that is a generic, yet precise, entangled cluster state described by a graph specifying the entanglement struc ...
Quantum Theory of the Coherently Pumped Micromaser
... The interaction of the maser field and the passing atoms is described by the Jaynes-Cummings Hamiltonian, the most commonly used interaction Hamiltonian of theoretical quantum optics. The microwave cavities used in today’s experiments have long decay times (approx. 0.3 s), therefore effects occur ...
... The interaction of the maser field and the passing atoms is described by the Jaynes-Cummings Hamiltonian, the most commonly used interaction Hamiltonian of theoretical quantum optics. The microwave cavities used in today’s experiments have long decay times (approx. 0.3 s), therefore effects occur ...
pdf
... Prior research has indicated that through instruction in classical physics, or from everyday experience, many introductory physics students develop realist perspectives [1] based in part on intuitive conceptions of particle and wave phenomena. For introductory modern physics students, we have seen h ...
... Prior research has indicated that through instruction in classical physics, or from everyday experience, many introductory physics students develop realist perspectives [1] based in part on intuitive conceptions of particle and wave phenomena. For introductory modern physics students, we have seen h ...
QUESTION BANK ON ATOMIC STRUCTURE-3.pmd
... In the n th quantum level, the number of electronic subshell is (A) (B) (C) 2n (D) 2 × ( 2l + 1) ...
... In the n th quantum level, the number of electronic subshell is (A) (B) (C) 2n (D) 2 × ( 2l + 1) ...
Effective Field Theory Approach to Gravitationally Induced
... from the various vacuum fluctuation induced spontaneous collapse models [11,12,14–16,18,20,24,28]. It will also be interesting to try to establish whether a resulting decohered, mixed matter state can in principle be distinguished from a collapse model yielding the same matter state outcomes. Refere ...
... from the various vacuum fluctuation induced spontaneous collapse models [11,12,14–16,18,20,24,28]. It will also be interesting to try to establish whether a resulting decohered, mixed matter state can in principle be distinguished from a collapse model yielding the same matter state outcomes. Refere ...
Quantum computing and mathematical research
... How to control the (initial) quantum states? How to create the appropriate environment for the quantum mechanical system to evolve without observing? How to “fight” decoherence (the interaction of the system and the external environment)? How to use the phenomena of superposition and entanglement ef ...
... How to control the (initial) quantum states? How to create the appropriate environment for the quantum mechanical system to evolve without observing? How to “fight” decoherence (the interaction of the system and the external environment)? How to use the phenomena of superposition and entanglement ef ...
