acta physica slovaca vol. 50 No. 1, 1 – 198 February 2000
acta physica slovaca vol. 50 No. 1, 1 – 198 February 2000

A practical guide to density matrix embedding
A practical guide to density matrix embedding

Study of equations for Tippe Top and related rigid bodies Nils Rutstam
Study of equations for Tippe Top and related rigid bodies Nils Rutstam

Weakly b-I-open sets and weakly b-I
Weakly b-I-open sets and weakly b-I

Axial gravity, massless fermions and trace anomalies
Axial gravity, massless fermions and trace anomalies

Interacting Anyons in a One-Dimensional Optical Lattice
Interacting Anyons in a One-Dimensional Optical Lattice

Download: PDF
Download: PDF

- PhilSci
- PhilSci

Engineering a Robust Quantum Spin Hall State in Graphene via
Engineering a Robust Quantum Spin Hall State in Graphene via

Coherent states and projective representation of the linear canonical
Coherent states and projective representation of the linear canonical

Topological Superconductivity in Artificial Heterostructures
Topological Superconductivity in Artificial Heterostructures

Bulk Entanglement Spectrum Reveals Quantum Criticality within a
Bulk Entanglement Spectrum Reveals Quantum Criticality within a

Observation of topological links associated with Hopf
Observation of topological links associated with Hopf

Continuous Measurement of an Atomic Current
Continuous Measurement of an Atomic Current

Two-resonator circuit quantum electrodynamics: Dissipative theory
Two-resonator circuit quantum electrodynamics: Dissipative theory

Wigner`s Dynamical Transition State Theory in
Wigner`s Dynamical Transition State Theory in

Double quantum dot as a spin rotator
Double quantum dot as a spin rotator

Universal quantum simulation with prethreshold superconducting qubits: Single-excitation subspace method
Universal quantum simulation with prethreshold superconducting qubits: Single-excitation subspace method

Mirror symmetry and T -duality in the complement of
Mirror symmetry and T -duality in the complement of

Quantum Nonlinear Optics in Lossy Coupled-Cavities in Photonic Crystal Slabs
Quantum Nonlinear Optics in Lossy Coupled-Cavities in Photonic Crystal Slabs

Multi-species systems in optical lattices: effects of disorder
Multi-species systems in optical lattices: effects of disorder

Superconducting Qubits and the Physics of Josephson Junctions
Superconducting Qubits and the Physics of Josephson Junctions

On the Classical and Quantum Momentum Map
On the Classical and Quantum Momentum Map

Bulk Entanglement Spectrum Reveals Quantum
Bulk Entanglement Spectrum Reveals Quantum

A Short Course on Topological Insulators
A Short Course on Topological Insulators

Dirac bracket

The Dirac bracket is a generalization of the Poisson bracket developed by Paul Dirac to treat classical systems with second class constraints in Hamiltonian mechanics, and to thus allow them to undergo canonical quantization. It is an important part of Dirac's development of Hamiltonian mechanics to elegantly handle more general Lagrangians, when constraints and thus more apparent than dynamical variables are at hand. More abstractly, the two-form implied from the Dirac bracket is the restriction of the symplectic form to the constraint surface in phase space.This article assumes familiarity with the standard Lagrangian and Hamiltonian formalisms, and their connection to canonical quantization. Details of Dirac's modified Hamiltonian formalism are also summarized to put the Dirac bracket in context.