bose-einstein condensation and macroscopic interference with
bose-einstein condensation and macroscopic interference with

Universal Gravitation
Universal Gravitation

Tensor Product Methods and Entanglement
Tensor Product Methods and Entanglement

... istic trait of quantum mechanics.[160,161] The QC-DMRG and QCTTNS algorithms approximate a composite system with strong interactions between many pairs of orbitals, and it turned out that the results of quantum information theory[162,163] can be used to understand the criteria of their convergence.[ ...
Double-Soft Limits of Gluons and Gravitons
Double-Soft Limits of Gluons and Gravitons

DOC - UF Physics - University of Florida
DOC - UF Physics - University of Florida

... Boson, which is a key ingredient to the Standard Model. To search for these massive particles, the LHC will collide protons at energies of 14 TeV. At the LHC, beams of protons will collide with each other at a rate of 40,000,000 collisions per second. It would be impossible to analyze the resulting ...
A Complementary Cyber Swarm Algorithm
A Complementary Cyber Swarm Algorithm

The American University in Cairo School of Sciences and Engineering
The American University in Cairo School of Sciences and Engineering

... The DC results of forward current were compared to that of backward direct current and the results showed that the backward direction hindered diffusion. The effect of alternating current shows that penetration was inversely proportional with the frequency which agrees with literature. Comparisons o ...
Anatomy of quantum chaotic eigenstates
Anatomy of quantum chaotic eigenstates

... The study of chaotic eigenstates makes up a large part of the field of quantum chaos. It is somewhat complementary with the contribution of J. Keating (who will focus on the statistical properties of quantum spectra, another major topic in quantum chaos). I do not include the study of eigenstates of ...
Noise, chaos, and (e, `r)-entropy per unit time
Noise, chaos, and (e, `r)-entropy per unit time

... century by stochastic differential equations like the Langevin equations [2]. The foundations of stochastic processes were firmly established in the thirties and the forties by Wiener and others who showed the importance of the white noise [2]. It was largely recognized only recently that determinis ...
CDM article on quantum chaos - Department of Mathematics
CDM article on quantum chaos - Department of Mathematics

Quantum Scattering Theory and Applications
Quantum Scattering Theory and Applications

... 9.2 Typical medium energy wavefunctions (j j2 is plotted) for 72 scatterers in a 1  1 Dirichlet bounded square. Black is high intensity, white is low. The scatterers are shown as black dots. For the top left wavefunction ` = :25  = :09 whereas ` = :48  = :051 for the bottom wavefunction. ` incr ...
Here
Here

Microwave Conductivity of Magnetic Field Induced Insulating Phase of Bilayer Hole Systems
Microwave Conductivity of Magnetic Field Induced Insulating Phase of Bilayer Hole Systems

... sufficiently small total Landau filling factor ν, and is understood as bilayer Wigner crystal (BWC), for samples of sufficiently low disorder. For a Wigner crystal in real samples, bilayer or single layer, the disorder not only gives the insulating behavior but also produces a striking microwave or ...
23 - Electronic Colloquium on Computational Complexity
23 - Electronic Colloquium on Computational Complexity

... cos Θ − sin Θ UΘ = sin Θ cos Θ This transformation takes any state and rotates it by Θ counterclockwise. Fix Θ = π/4. Then it’s clear from the picture that if we were to apply UΘ to |0i, we’d get |+i. If we were to apply UΘ one more time, then we’d get |1i. This small example illustrates what’s call ...
Electron paramagnetic resonance of photoexcited
Electron paramagnetic resonance of photoexcited

... quantum gates to manipulate qubits to perform logical operation. A classical computer has a memory made up of bits, where each bit represents either a state |ψi = |0i or |ψi = |1i state . However, its counterpart QCs utilizes the quantum two level systems as quantum bits (qubits) where the qubits ca ...
Orthogonal metals: The simplest non-Fermi liquids
Orthogonal metals: The simplest non-Fermi liquids

Theoretical study of open-shell van der Waals complexes Anna V. Fishchuk
Theoretical study of open-shell van der Waals complexes Anna V. Fishchuk

... in reactive encounters. In 1994 it was stated by Dubernet and Hutson [45] that van der Waals complexes “share many of the same dynamic features with transition states of chemical reactions such as wide-amplitude motion, including internal rotation etc., so that studying complexes can cast light on r ...
Simulation study of optical degradation monitoring in the SNO+
Simulation study of optical degradation monitoring in the SNO+

Ph410 Physics of Quantum Computation1
Ph410 Physics of Quantum Computation1

... A second important distinction between classical and quantum computation (i.e., physics), besides the irreversibility of quantum measurement, is that an arbitrary (unknown) quantum state cannot be copied exactly (prob. 6). (b) Classical Copying of a Known Bit In Bennett’s reversible computer there m ...
Non-Abelian Anyons and Topological Quantum Computation
Non-Abelian Anyons and Topological Quantum Computation

... two such interchanges of particles. The only two possibilities are for the wavefunction to change by a ± sign under a single interchange, corresponding to the cases of bosons and fermions, respectively. We can recast this in path integral language. Suppose we consider all possible trajectories in 3 ...
Dissociation Dynamics of Unstable Molecular Systems
Dissociation Dynamics of Unstable Molecular Systems

Addressing of individual atoms in an optical dipole trap
Addressing of individual atoms in an optical dipole trap

Quantum Computer (Information) and Quantum Mechanical
Quantum Computer (Information) and Quantum Mechanical

... universe actually a giant quantum computer? According to Seth Lloyd--professor of quantum-mechanical engineering at MIT and originator of the first technologically feasible design for a working quantum computer--the answer is yes. Interactions between particles in the universe, Lloyd explains, conve ...
the final version of Abstract Book
the final version of Abstract Book

... Recent progress in technologies has led to enormous improvements of measurement and observation techniques, both at microscopic as well as macroscopic scales, which allow us to measure many characteristics and observe many features of various systems. These include not only very small artificial str ...
Defining and detecting quantum speedup
Defining and detecting quantum speedup

... a speedup compared to a specific classical algorithm or a set of classical algorithms. An example is the simulation of the time evolution of a quantum system, where the propagation of the wave function on a quantum computer would be exponentially faster than a direct integration of Schrödinger’s eq ...

Theoretical and experimental justification for the Schrödinger equation

The theoretical and experimental justification for the Schrödinger equation motivates the discovery of the Schrödinger equation, the equation that describes the dynamics of nonrelativistic particles. The motivation uses photons, which are relativistic particles with dynamics determined by Maxwell's equations, as an analogue for all types of particles.This article is at a postgraduate level. For a more general introduction to the topic see Introduction to quantum mechanics.