Probing parity doubling in nucleons at high temperature

Gert Aarts; Chris Allton; Simon Hands; Benjamin Jäger; Chrisanthi Praki; Jon-Ivar Skullerud

Probing parity doubling in nucleons at high temperature

Gert Aarts, Chris Allton, Simon Hands, Benjamin Jäger, Chrisanthi Praki, Jon-Ivar Skullerud

Institut for Matematik og Datalogi

Publikation: Bidrag til tidsskrift › Konferenceartikel › Forskning › peer review

13 Downloads (Pure)

Abstract

The spectrum of nucleons and their parity partners is studied as a function of temperature spanning the deconfinement transition. We analyse our results using the correlation functions directly, exponential fits in the hadronic phase, and the Maximum Entropy Method. These techniques all indicate that there is degeneracy in the parity partners' channels in the deconfined phase. This is in accordance with the expectation that there is parity doubling and chiral symmetry in the deconfined phase. In the hadronic phase, we also find that the nucleon ground state is largely independent of temperature, whereas there are substantial temperature effects in the negative parity channel. All results are obtained using our FASTSUM 2+1 flavour ensembles.

Originalsprog	Engelsk
Tidsskrift	P o S - Proceedings of Science
ISSN	1824-8039
Status	Udgivet - 14. okt. 2015

Bibliografisk note

Proceedings of the 33rd International Symposium on Lattice Field Theory, Kobe, Japan, 14-18 July 2015

Dokumenter og links

1510.04040v1

Citationsformater

@inproceedings{f7975f10af83414ba01b2e360b2d727e,

title = "Probing parity doubling in nucleons at high temperature",

abstract = " The spectrum of nucleons and their parity partners is studied as a function of temperature spanning the deconfinement transition. We analyse our results using the correlation functions directly, exponential fits in the hadronic phase, and the Maximum Entropy Method. These techniques all indicate that there is degeneracy in the parity partners' channels in the deconfined phase. This is in accordance with the expectation that there is parity doubling and chiral symmetry in the deconfined phase. In the hadronic phase, we also find that the nucleon ground state is largely independent of temperature, whereas there are substantial temperature effects in the negative parity channel. All results are obtained using our FASTSUM 2+1 flavour ensembles. ",

keywords = "hep-lat",

author = "Gert Aarts and Chris Allton and Simon Hands and Benjamin J{\"a}ger and Chrisanthi Praki and Jon-Ivar Skullerud",

note = "Proceedings of the 33rd International Symposium on Lattice Field Theory, Kobe, Japan, 14-18 July 2015",

year = "2015",

month = oct,

day = "14",

language = "English",

journal = "P o S - Proceedings of Science",

issn = "1824-8039",

publisher = "SISSA",

}

TY - GEN

T1 - Probing parity doubling in nucleons at high temperature

AU - Aarts, Gert

AU - Allton, Chris

AU - Hands, Simon

AU - Jäger, Benjamin

AU - Praki, Chrisanthi

AU - Skullerud, Jon-Ivar

N1 - Proceedings of the 33rd International Symposium on Lattice Field Theory, Kobe, Japan, 14-18 July 2015

PY - 2015/10/14

Y1 - 2015/10/14

N2 - The spectrum of nucleons and their parity partners is studied as a function of temperature spanning the deconfinement transition. We analyse our results using the correlation functions directly, exponential fits in the hadronic phase, and the Maximum Entropy Method. These techniques all indicate that there is degeneracy in the parity partners' channels in the deconfined phase. This is in accordance with the expectation that there is parity doubling and chiral symmetry in the deconfined phase. In the hadronic phase, we also find that the nucleon ground state is largely independent of temperature, whereas there are substantial temperature effects in the negative parity channel. All results are obtained using our FASTSUM 2+1 flavour ensembles.

AB - The spectrum of nucleons and their parity partners is studied as a function of temperature spanning the deconfinement transition. We analyse our results using the correlation functions directly, exponential fits in the hadronic phase, and the Maximum Entropy Method. These techniques all indicate that there is degeneracy in the parity partners' channels in the deconfined phase. This is in accordance with the expectation that there is parity doubling and chiral symmetry in the deconfined phase. In the hadronic phase, we also find that the nucleon ground state is largely independent of temperature, whereas there are substantial temperature effects in the negative parity channel. All results are obtained using our FASTSUM 2+1 flavour ensembles.

KW - hep-lat

M3 - Conference article

SN - 1824-8039

JO - P o S - Proceedings of Science

JF - P o S - Proceedings of Science

ER -

Probing parity doubling in nucleons at high temperature

Abstract

Bibliografisk note

Dokumenter og links

Fingeraftryk

Citationsformater