Ab-initio Modeling of Cold Gases November 11, 2009
Ab-initio Modeling of Cold Gases November 11, 2009

... ideal numerical tool with enormous and yet to be explored potential for solving interacting many-body systems by direct simulation of Feynman diagrams for the proper self-energies and polarization operators up to high order. Though the original series based on bare propagatorsare sign-alternating an ...
THE HVZ THEOREM FOR N
THE HVZ THEOREM FOR N

A quantum logical and geometrical approach to the study of
A quantum logical and geometrical approach to the study of

Why dynamics?
Why dynamics?

... diagram with remarkable accuracy in d=3: much better than standard mean-field or strong coupling expansion in d=2 and 3. ...
the PDF - JILA Science - University of Colorado Boulder
the PDF - JILA Science - University of Colorado Boulder

CECAM Meeting “Development of Methods for
CECAM Meeting “Development of Methods for

... penta-coordinated Ti4+ ion next to the adsorbate (coordination complex ligand mechanism). ...
Lower bounds of shortest vector lengths in random knapsack lattices
Lower bounds of shortest vector lengths in random knapsack lattices

Chapter 3 Basic of Fluid Flow
Chapter 3 Basic of Fluid Flow

... vary in the direction of flow and not across the cross-section. The flow may be unsteady, in this case the parameter vary in time but still not across the cross-section.  An example of one-dimensional flow is the flow in a pipe. Note that since flow must be zero at the pipe wall - yet nonzero in th ...
propagation methods for quantum molecular dynamics
propagation methods for quantum molecular dynamics

... attempt in this review is to present only one aspect of it, the role of the propagation step. Although the propagation step was initially designed to advance the quantum wavepacket in time, recent progress has eliminated the distinction between time-dependent and time-independent applications of pro ...
Effects of non-newtonian properties of blood flow on magnetic
Effects of non-newtonian properties of blood flow on magnetic

... Of course the process is very complex and several interactions among hydrodynamic forces, Brownian forces and adhesion forces affect the process. In addition to these effects, factors such as shape, size and material composing the nanoparticles have influence on the process. To develop nanomedicine, ...
2 Mechanics of fluids at rest
2 Mechanics of fluids at rest

ent 153_bernoulli equation
ent 153_bernoulli equation

Bose-Einstein Condensation
Bose-Einstein Condensation

DENSITY CONCEPT IN MOLECULES AND MATERIALS
DENSITY CONCEPT IN MOLECULES AND MATERIALS

Multi-particle simulation code for IBS - Indico
Multi-particle simulation code for IBS - Indico

viscoelastic fluid flow with the presence of magnetic field past
viscoelastic fluid flow with the presence of magnetic field past

Nonequilibrium Quantum Magnetism in a Dipolar Lattice Gas
Nonequilibrium Quantum Magnetism in a Dipolar Lattice Gas

... intersite DDIs for a preserved total magnetization Mt ¼ 8. We show in the Supplemental Material, part S7 [37] that the total spin S of a pair of particles in one site is not modified by the interaction with other sites, which confirms that pairs of particles do behave like large spins S interacting ...
Suppression of Ion Transport due to Long-Lived Subwavelength Localization by an Optical Lattice.
Suppression of Ion Transport due to Long-Lived Subwavelength Localization by an Optical Lattice.

Suppression of Ion Transport due to Long-Lived Subwavelength Leon Karpa, Alexei Bylinskii,
Suppression of Ion Transport due to Long-Lived Subwavelength Leon Karpa, Alexei Bylinskii,

Equation
Equation

Fractional quantum Hall effect in optical lattices
Fractional quantum Hall effect in optical lattices

... these schemes quantum states with fractional statistics can potentially perform fault-tolerant quantum computation. So far, there has been no direct experimental observation of fractional statistics although some signatures have been observed in electron interferometer experiments 关12,13兴. Strongly ...
Charge degrees of freedom on the kagome lattice
Charge degrees of freedom on the kagome lattice

3.3 The time-dependent Schrödinger equation
3.3 The time-dependent Schrödinger equation

... Compatibility with the time-independent equation So every solution   r  of the time-independent Schrödinger equation, with eigenenergy E is also a solution of the time-dependent equation as long as we always multiply it by a factor exp  iEt /   If   r  is a solution of the time-independen ...
chap3
chap3

... Check point question (easy) Problem 3.1 (a) Suppose that f(x) and g(x) are two eigenfunctions of an operator Q, with the same eigenvalue q. Show that any linear combination of f and g is itself an eigenfuntion of Q, with eigenvalue q. ...
A Quantum Mechanical Supertask
A Quantum Mechanical Supertask

Lattice Boltzmann methods

Lattice Boltzmann methods (LBM) (or Thermal Lattice Boltzmann methods (TLBM)) is a class of computational fluid dynamics (CFD) methods for fluid simulation. Instead of solving the Navier–Stokes equations, the discrete Boltzmann equation is solved to simulate the flow of a Newtonian fluid with collision models such as Bhatnagar-Gross-Krook (BGK). By simulating streaming and collision processes across a limited number of particles, the intrinsic particle interactions evince a microcosm of viscous flow behavior applicable across the greater mass.