Optical lattice emulator: How to construct it and what can it do

Zhou, Qi

25 September 2009

No description available.

Physics

optical lattice emulator

The normal vibrations of diatomic crystal lattices /

Lee, Sung Mook

January 1965

No description available.

Physics

Lattice theory

Crystallography

Some results on lattice packing and coverings /

Hans-Gill, R. J.

January 1965

No description available.

Mathematics

Lattice theory

An existence theory for pairwise balanced designs /

Wilson, R. M.

January 1969

No description available.

Mathematics

Lattice theory

On the covering problem for the Gaussian and Eisenstein fields /

Karamanoukian, Zaven A.

January 1971

No description available.

Mathematics

Lattice theory

Boolean matrices and finite systems /

Brown, Frank Markham

January 1968

No description available.

Engineering

Algebra

Lattice theory

Locally projective-planar lattices which satisfy the bundle theorem /

Kahn, Jeffry Ned

January 1979

No description available.

Mathematics

Lattice theory

Effect of Pressure and Temperature on Lattice Parameters of Nepheline

Freeman, Edward Bicknell

09 1900

An experimental investigation was made involving the synthesis of nepheline (NaAlSiO4) under varying conditions of temperature and water pressure 2022-2130 for each synthesized charge was obtained using x-ray diffraction methods. It was found that the results of the individual runs provided an erratic lattice parameter variation with temperature in the range 500 to 800 degrees Celsius. However, a least squares curve indicates that no change in lattice parameters in the low-nepheline polymorph occurs with temperature of formation, for 95 percent probability. / Thesis / Master of Science (MS)

pressure

temperature

lattice parameters

The discontinuity of lattice operations in a cone /

Sansom, Michael Raymond

January 1975

No description available.

Cone.

Lattice theory.

Going Rogue: Existence, Spectral Stability, And Bifurcations Of Rogue Waves In Integrable And Non-Integrable Lattice Models

Lytle, Madison L

01 June 2024

The study of large nonlinear waves that seem to “appear out of nowhere and disappear without a trace”, known as rogue or freak waves, began largely in response to observations of catastrophic ocean waves. However, the study of rogue waves has since been expanded to a wider collection of physical scenarios, including discrete systems, such as those that appear in optics, as opposed to the continuous system of water waves. Waves in these discrete settings can be modeled as solutions to lattice wave equations. The nonlinear Schrodinger equation (NLSE) is one of the most ubiquitous continuous wave models for physical systems where rogue waves emerge. This thesis focuses on the two discrete analogs of the NLSE: a non-integrable model called the discrete nonlinear Schrodinger equation (DNLS) and its integrable sibling called the Ablowitz-Ladik (AL) equation. The physical relevance of DNLS model motivates the search for its rogue wave solutions; a search that is impeded by its lack of integrability. However, it is homotopically paired with the integrable AL equation through the Salerno model, providing a potential outlet to find numerically exact solutions. This threefold investigation will look at: (i) finding time-periodic solutions to the DNLS atop a constant non-zero background, (ii) proximity of solutions to the AL and DNLS equations over time, and (iii) time-periodic solutions to the defocusing AL model.

Rogue

Waves

Lattice

Nonlinear