Momentum and hamiltonian in complex action theory

Keiichi Nagao; Holger Frits Bech Nielsen

doi:10.1142/S0217751X12500765

Momentum and hamiltonian in complex action theory

Keiichi Nagao, Holger Frits Bech Nielsen

Teoretisk højenergi, astropartikel og gravitationel fysik

9 Citationer (Scopus)

Abstract

In the complex action theory (CAT) we explicitly examine how the momentum and Hamiltonian are defined from the Feynman path integral (FPI) point of view. In arXiv:1104.3381[quant-ph], introducing a philosophy to keep the analyticity in parameter variables of FPI and defining a modified set of complex conjugate, hermitian conjugates and bras, we have extended $| q >$ and $| p >$ to complex $q$ and $p$ so that we can deal with a complex coordinate $q$ and a complex momentum $p$. After reviewing them briefly, we describe in terms of the newly introduced devices the time development of a $\xi$-parametrized wave function, which is a solution to an eigenvalue problem of a momentum operator $\hat{p}$, in FPI with a starting Lagrangian. Solving the eigenvalue problem, we derive the momentum and Hamiltonian. Oppositely, starting from the Hamiltonian we derive the Lagrangian in FPI, and we are led to the momentum again via the saddle point for $p$. This study confirms that the momentum and Hamiltonian in the CAT have the same forms as those in the real action theory. We also show the third derivation of the momentum via the saddle point for $q$.

Originalsprog	Engelsk
Tidsskrift	International Journal of Modern Physics A
Vol/bind	27
Udgave nummer	14
Sider (fra-til)	1250076
Antal sider	30
ISSN	0217-751X
DOI	https://doi.org/10.1142/S0217751X12500765
Status	Udgivet - 10 jun. 2012

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Det Natur- og Biovidenskabelige Fakultet
Backward causation, quantum physics, nonhermitean Hamiltonian

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10.1142/S0217751X12500765

Citationsformater

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title = "Momentum and hamiltonian in complex action theory",

abstract = "In the complex action theory (CAT) we explicitly examine how the momentum and Hamiltonian are defined from the Feynman path integral (FPI) point of view based on the complex coordinate formalism of our foregoing paper. After reviewing the formalism briefly, we describe in FPI with a Lagrangian the time development of a ξ-parametrized wave function, which is a solution to an eigenvalue problem of a momentum operator. Solving this eigenvalue problem, we derive the momentum and Hamiltonian. Oppositely, starting from the Hamiltonian we derive the Lagrangian in FPI, and we are led to the momentum relation again via the saddle point for p. This study confirms that the momentum and Hamiltonian in the CAT have the same forms as those in the real action theory. We also show the third derivation of the momentum relation via the saddle point for q.",

keywords = "Faculty of Science, Backward causation, quantum physics, nonhermitean Hamiltonian",

author = "Keiichi Nagao and Nielsen, {Holger Frits Bech}",

year = "2012",

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T1 - Momentum and hamiltonian in complex action theory

AU - Nagao, Keiichi

AU - Nielsen, Holger Frits Bech

PY - 2012/6/10

Y1 - 2012/6/10

N2 - In the complex action theory (CAT) we explicitly examine how the momentum and Hamiltonian are defined from the Feynman path integral (FPI) point of view based on the complex coordinate formalism of our foregoing paper. After reviewing the formalism briefly, we describe in FPI with a Lagrangian the time development of a ξ-parametrized wave function, which is a solution to an eigenvalue problem of a momentum operator. Solving this eigenvalue problem, we derive the momentum and Hamiltonian. Oppositely, starting from the Hamiltonian we derive the Lagrangian in FPI, and we are led to the momentum relation again via the saddle point for p. This study confirms that the momentum and Hamiltonian in the CAT have the same forms as those in the real action theory. We also show the third derivation of the momentum relation via the saddle point for q.

AB - In the complex action theory (CAT) we explicitly examine how the momentum and Hamiltonian are defined from the Feynman path integral (FPI) point of view based on the complex coordinate formalism of our foregoing paper. After reviewing the formalism briefly, we describe in FPI with a Lagrangian the time development of a ξ-parametrized wave function, which is a solution to an eigenvalue problem of a momentum operator. Solving this eigenvalue problem, we derive the momentum and Hamiltonian. Oppositely, starting from the Hamiltonian we derive the Lagrangian in FPI, and we are led to the momentum relation again via the saddle point for p. This study confirms that the momentum and Hamiltonian in the CAT have the same forms as those in the real action theory. We also show the third derivation of the momentum relation via the saddle point for q.

KW - Faculty of Science

KW - Backward causation, quantum physics, nonhermitean Hamiltonian

U2 - 10.1142/S0217751X12500765

DO - 10.1142/S0217751X12500765

M3 - Journal article

SN - 0217-751X

VL - 27

SP - 1250076

JO - International Journal of Modern Physics A

JF - International Journal of Modern Physics A

IS - 14

ER -

Momentum and hamiltonian in complex action theory

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