M. Henneaux and C. Teitleboim, “Quantization of Gauge Systems,” Princeton University Press, New Jersey, 1992. - References

Browse Menu >>

Browse Subjects >>

Biomedical & Life Sciences

Business & Economics

Chemistry & Materials Science

Computer Science & Communications

Earth & Environmental Sciences

Engineering

Medicine & Healthcare

Physics & Mathematics

Social Sciences & Humanities

Why Us? >>

- Open Access
- Peer-reviewed
- Rapid publication
- Lifetime hosting
- Free indexing service
- Free promotion service
- More citations
- Search engine friendly

Free SCIRP Newsletters>>

Add your e-mail address to receive free newsletters from SCIRP.

Contact Us >>

customer@scirp.org

+86 18163351462(WhatsApp)

1655362766

Paper Publishing WeChat

Book Publishing WeChat

(or Email:book@scirp.org)

Article citations
More>>

M. Henneaux and C. Teitleboim, “Quantization of Gauge Systems,” Princeton University Press, New Jersey, 1992.

has been cited by the following article:

TITLE: Light-Front Hamiltonian and Path Integral Formulations of the Conformally Gauge-Fixed Polyakov D1 Brane Action

AUTHORS: Usha Kulshreshtha, Daya Shankar Kulshreshtha

KEYWORDS: Light-Front Quantization, Hamiltonian Quantization, Path Integral Quantization, Constrained Dynamics, Constraint Quantization, Gauge Symmetry, String Gauge Symmetry, String Theory, D-brane Actions, Polyakov Action, Light-Cone Quantization.

JOURNAL NAME: Journal of Modern Physics, Vol.2 No.5, May 17, 2011

ABSTRACT: In a recent paper we have studied the Hamiltonian and path integral quantizations of the conformally gauge-fixed Polyakov D1 brane action in the instant-form of dynamics using the equal world-sheet time framework on the hyperplanes defined by the world- sheet time . In the present work we quantize the same theory in the equal light-cone world-sheet time framework, on the hyperplanes of the light-front defined by the light-cone world-sheet time , using the standard constraint quantization techniques in the Hamiltonian and path integral formulations. The light-front theory is seen to be a constrained system in the sense of Dirac, which is in contrast to the corresponding case of the instant-form theory, where the theory remains unconstrained in the sense of Dirac. The light-front theory is seen to possess a set of twenty six primary second-class contraints. In the present work Hamiltonian and path integral quantizations of this theory are studied on the light-front.

Open Access

Mapping Contaminants Associated with Autism: A Public Health Pilot in New Jersey

Erin Speiser Ihde, Themba Nyirenda, Aridaman K. Jain, Ji Meng Loh, Francisco Artigas, Christine Hobble, Dom Elefante, Saleh Kojak, Jin Young Shin, Lawrence Rosen

DOI: 10.4236/jgis.2014.66058 3,585 Downloads 4,442 Views Citations

Pub. Date: December 25, 2014

Open Access

Detection and Characterization of the Cyanobacteria and Cyanophages of Barnegat Bay, New Jersey

Roksana M. Rahman, Alexandra Greco, Alisha Nanda, Christian Rios-Ruiz, Yan Wang, Paul Yoon, Dena J. Restaino, John J. Gaynor, Paul A. X. Bologna, Tinchun Chu

DOI: 10.4236/jep.2019.1011087 347 Downloads 637 Views Citations

Pub. Date: November 6, 2019

Open Access

On the Quantization of One-Dimensional Conservative Systems with Variable mass

G. V. López

DOI: 10.4236/jmp.2012.38102 4,057 Downloads 5,937 Views Citations

Pub. Date: August 16, 2012

Open Access

A New Species of the Genus Alloclubionoides Paik, 1992 (Araneae: Agelenidae) from Korea

Joo-Pil Kim, Seong-Hun Ye

DOI: 10.4236/ojas.2014.43017 2,369 Downloads 2,999 Views Citations

Pub. Date: June 26, 2014