Gauge transformations and Galilean covariance in nonlinear gauge-coupled quantum fluids

Abstract. This paper presents developments of the Harniltonian Approach to problems of fluid dynamics, and also considers some specific applications of the general method to hydrodynamical models. Nonlinear gauge transformations are found to result in a reduction to a minimum number of degrees of freedom, i.e. the number of pairs of canonically conjugated variables used in a given hydrodynamical system. It is shown that any conservative hydrodynamic model with additional fields which are in involution may be always reduced to the canonical Hamiltonian system with three degrees of freedom only. These gauge transformations are associated with the law of helicity conservation. Constraints imposed on the corresponding Clebsch representation are determined for some particular cases, such as, for example. when fluid motions develop in the absence of helicity. For a long time the process of the introduction of canonical variables into hydrodynamics has remained more of an intuitive foresight than a logical finding. The special attention is allocated to the problem of the elaboration of the corresponding regular procedure. The Harniltonian Approach is applied to geophysical models including incompressible (3D and 2D) fluid motion models in curvilinear and lagrangian coordinates. The problems of the canonical description of the Rossby waves on a rotating sphere and of the evolution of a system consisting of N singular vortices are investigated.

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Structure of nonlinear gauge transformations

Physical Review A ◽

10.1103/physreva.57.r2263 ◽

1998 ◽

Vol 57 (4) ◽

pp. R2263-R2266 ◽

Cited By ~ 2

Author(s):

Marek Czachor

Keyword(s):

Gauge Transformations ◽

Nonlinear Gauge

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On the hydrodynamics of nonlinear gauge-coupled quantum fluids

The European Physical Journal D ◽

10.1140/epjd/e2020-100524-3 ◽

2020 ◽

Vol 74 (5) ◽

Author(s):

Yvan Buggy ◽

Lawrence G. Phillips ◽

Patrik Öhberg

Keyword(s):

Quantum Fluids ◽

Nonlinear Gauge

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Introducing nonlinear gauge transformations in a family of nonlinear Schrödinger equations

Physical Review A ◽

10.1103/physreva.54.3764 ◽

1996 ◽

Vol 54 (5) ◽

pp. 3764-3771 ◽

Cited By ~ 82

Author(s):

H.-D. Doebner ◽

Gerald A. Goldin

Keyword(s):

Nonlinear Schrödinger Equations ◽

Schrodinger Equations ◽

Schrödinger Equations ◽

Gauge Transformations ◽

Nonlinear Schrödinger ◽

Nonlinear Schrodinger Equations ◽

Nonlinear Gauge

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Nonlinear gauge transformations

Lettere al Nuovo Cimento ◽

10.1007/bf02755002 ◽

1970 ◽

Vol 3 (22) ◽

pp. 689-692

Author(s):

E. Gal-Ezer

Keyword(s):

Gauge Transformations ◽

Nonlinear Gauge

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Renormalization of the reduced density matrices for inhomogeneous quantum fluids. II

Bulletin de la Classe des sciences ◽

10.3406/barb.1973.60688 ◽

1973 ◽

Vol 59 (1) ◽

pp. 230-253

Author(s):

Linda E. Reichl

Keyword(s):

Quantum Fluids ◽

Density Matrices ◽

Reduced Density Matrices ◽

Reduced Density ◽

Inhomogeneous Quantum

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Poisson Brackets & Angular Momentum

10.1093/oso/9780198822370.003.0017 ◽

2018 ◽

Author(s):

Peter Mann

Keyword(s):

Generating Functions ◽

First Integrals ◽

Lagrangian Mechanics ◽

Poisson Brackets ◽

Coordinate Transformations ◽

Canonical Transformations ◽

Gauge Transformations ◽

The Third ◽

Point Transformations ◽

Canonical Coordinate

This chapter discusses canonical transformations and gauge transformations and is divided into three sections. In the first section, canonical coordinate transformations are introduced to the reader through generating functions as the extension of point transformations used in Lagrangian mechanics, with the harmonic oscillator being used as an example of a canonical transformation. In the second section, gauge theory is discussed in the canonical framework and compared to the Lagrangian case. Action-angle variables, direct conditions, symplectomorphisms, holomorphic variables, integrable systems and first integrals are examined. The third section looks at infinitesimal canonical transformations resulting from functions on phase space. Ostrogradsky equations in the canonical setting are also detailed.

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Gauge transformations for twisted spectral triples

Letters in Mathematical Physics ◽

10.1007/s11005-018-1099-3 ◽

2018 ◽

Vol 108 (12) ◽

pp. 2589-2626 ◽

Cited By ~ 5

Author(s):

Giovanni Landi ◽

Pierre Martinetti

Keyword(s):

Spectral Triples ◽

Gauge Transformations ◽

Twisted Spectral Triples

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Five-brane current algebras in type II string theories

Journal of High Energy Physics ◽

10.1007/jhep03(2021)298 ◽

2021 ◽

Vol 2021 (3) ◽

Author(s):

Machiko Hatsuda ◽

Shin Sasaki ◽

Masaya Yata

Keyword(s):

Poisson Bracket ◽

Gauge Field ◽

The Self ◽

Dirac Bracket ◽

Type Ii ◽

Gauge Transformations ◽

Transition Rules ◽

Superstring Theories ◽

Kaluza Klein ◽

Current Algebras

Abstract We study the current algebras of the NS5-branes, the Kaluza-Klein (KK) five-branes and the exotic $$ {5}_2^2 $$ 5 2 2 -branes in type IIA/IIB superstring theories. Their worldvolume theories are governed by the six-dimensional $$ \mathcal{N} $$ N = (2, 0) tensor and the $$ \mathcal{N} $$ N = (1, 1) vector multiplets. We show that the current algebras are determined through the S- and T-dualities. The algebras of the $$ \mathcal{N} $$ N = (2, 0) theories are characterized by the Dirac bracket caused by the self-dual gauge field in the five-brane worldvolumes, while those of the $$ \mathcal{N} $$ N = (1, 1) theories are given by the Poisson bracket. By the use of these algebras, we examine extended spaces in terms of tensor coordinates which are the representation of ten-dimensional supersymmetry. We also examine the transition rules of the currents in the type IIA/IIB supersymmetry algebras in ten dimensions. Based on the algebras, we write down the section conditions in the extended spaces and gauge transformations of the supergravity fields.

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