Relativistic three-particle quantization condition for nondegenerate scalars

The formalism relating the relativistic three-particle infinite-volume scattering amplitude to the finite-volume spectrum has been developed thus far only for identical or degenerate particles. We provide the generalization to the case of three nondegenerate scalar particles with arbitrary masses. A...

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Veröffentlicht in:	Physical review. D 2021-03, Vol.103 (5), Article 054503
Hauptverfasser:	Blanton, Tyler D., Sharpe, Stephen R.
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Sprache:	eng
Schlagworte:	Formalism Integral equations Measurement Relativistic effects Relativistic particles Scalars Scattering amplitude Spectators
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description	The formalism relating the relativistic three-particle infinite-volume scattering amplitude to the finite-volume spectrum has been developed thus far only for identical or degenerate particles. We provide the generalization to the case of three nondegenerate scalar particles with arbitrary masses. A key quantity in this formalism is the quantization condition, which relates the spectrum to an intermediate K matrix. We derive three versions of this quantization condition, each a natural generalization of the corresponding results for identical particles. In each case we also determine the integral equations relating the intermediate K matrix to the three-particle scattering amplitude, M3. The version that is likely to be most practical involves a single Lorentz-invariant intermediate K matrix, ˜K df,3. The other versions involve a matrix of K matrices, with elements distinguished by the choice of which initial and final particles are the spectators. Our approach should allow a straightforward generalization of the relativistic approach to all other three-particle systems of interest.
doi_str_mv	10.1103/PhysRevD.103.054503
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subjects	Formalism Integral equations Measurement Relativistic effects Relativistic particles Scalars Scattering amplitude Spectators
title	Relativistic three-particle quantization condition for nondegenerate scalars
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