Towards a final criteria of separating momentum and angular momentum

Towards a final criteria of separating momentum and angular momentum Outline: The matter of convenience The matter of reasonableness The matter of correctness Xiang-Song Chen Huazhong University of Science & Technology 陈相松 •华中科技大学•武汉 16 Feb 2012 @ INT-Seattle

Recall of the Controversies Leader [PRD 83:096012 (2011)]

I. The matter of convenience and fine-tuning in actual application • Hint from a forgotten practice: Why photon is ignored for atomic spin? • The fortune of choosing Coulomb gauge • Quantitative differences • Fine-tuning for the gluon spin and OAM

Hint from a forgotten practice: Why photon is ignored for atomic spin? Do these solutions make sense?!

The atom as a whole

Close look at the photon contribution The static terms!

Justification of neglecting photon field

A critical gap to be closed

The same story with Hamiltonian

The fortune of using Coulomb gauge

Momentum of a moving atom A stationary electromagnetic field carries no momentum

Gauge-invariant revision – Angular Momentum

Gauge-invariant revision -Momentum and Hamiltonian

The covariant scheme  spurious photon angular momentum

Gluon angular momentum in the nucleon: Tree-level One-gluon exchange has the same property as one-photon exchange

Beyond the static approximation

Fine-tuning for the gluon spin and OAM Possible convergence in evolution

II. The matter of reasonableness ---Leader’s criteria of separating momentum and angular momentum • Leader’s compelling criteria to remove the controversy • Recalling the Poincare algebra and subalgebra for and interacting system • Generators for the physical fields: QED • The quark-gluon system

The controversy and Leader’s Criteria

Interacting theory:Structure of Poincare generators

Interacting theory: Poincare (sub)algebra

Generators for the gauge-invariant physical fields - translation

Generators for the gauge-invariant physical fields - Rotation

The quark-gluon system

Generator for the gauge-invariant quark field

Generator for the gauge-invariant gluon field

Some detail in the proof

III. Possibly a real final solution Dipole rad. (rad. gauge) l=1 m=1 E Flux J Flux

Miracle of quantum Measurement A system can only be detected in certain eigenstate E.g. Optical pumping of a trapped ion

The issue of “indirect” observable in QCD: matter of definition, but … • The same experiments as to “measure” the conventional PDFs • New factorization formulae and extraction of the new PDFs • Quark and gluon orbital angular momentum can in principle be measured through generalized (off-forward) PDFs

Is gauge-invariance a “Compromise”, or even “illusion”? • First step in Physics：Complete Description • Classic Physics: r and p（controllable） • Quantum Mechanics：Wave Function （Not completely controllable） • Gauge Theory：Gauge potentials (Completely uncontrollable） Need for the physical variable: Real emergence of a photon

Thank you! 谢谢!

Towards a final criteria of separating momentum and angular momentum

Towards a final criteria of separating momentum and angular momentum

Presentation Transcript

Angular Momentum

Angular Momentum

Angular Momentum

Conservation of Momentum and Angular Momentum

Angular Momentum

Angular momentum

Conservation of Angular Momentum, Change in Angular Momentum and, Angular Impulse

Angular Momentum

Angular Momentum

Angular Momentum

Angular Momentum

Angular Momentum

Angular Momentum

Angular Momentum

Angular Momentum

Angular Momentum

Angular Momentum

Angular Momentum

Angular Momentum

Angular Momentum

Angular Momentum

Angular Momentum