What question did this study set out to answer?

The aim is to construct a manifestly covariant worldline action for particles using coadjoint orbits.

April 23, 2026

Ab initio construction of Poincaré and AdS particles

Key Points

The aim is to construct a manifestly covariant worldline action for particles using coadjoint orbits.
Derived worldline particle action from the symplectic two-form of coadjoint orbits.
Introduced Hamiltonian constraints based on isometry conditions.
Applied the method to both massive and massless particles in Minkowski and AdS spacetimes.
Successfully formulated a covariant worldline action that respects physical properties of particles.
Demonstrated the effectiveness of Hamiltonian constraints in both Minkowski and AdS spacetime frameworks.
Highlighted subtleties in choosing coordinate systems affecting particle properties.

Abstract

We study the construction of a manifestly covariant worldline action from a coadjoint orbit. A coadjoint orbit is a submanifold in the dual vector space of a Lie algebra, generated by coadjoint actions. Since a coadjoint orbit is a symplectic space, we derive the worldline particle action from the symplectic two-form. One subtlety in formulating worldline particle actions from coadjoint orbits is the choice of a coordinate system that clearly illustrates physical properties of the particles. We introduce Hamiltonian constraints derived from the defining conditions of the isometry. This allows us to write a manifestly covariant worldline action. We demonstrate our method for both massive and massless particles in Minkowski and AdS spacetime.

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Ab initio construction of Poincaré and AdS particles

Key Points

Abstract

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