Pseudogap phenomenon in an ultracold Fermi gas with a p-wave interaction

Daisuke Inotani; Ryota Watanabe; Manfred Sigrist; Yoji Ohashi

doi:10.1109/ISAS.2011.5960914

Pseudogap phenomenon in an ultracold Fermi gas with a p-wave interaction

Daisuke Inotani, Ryota Watanabe, Manfred Sigrist, Yoji Ohashi

Department of Physics

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

Abstract

We investigate fluctuation effects in a single-component ultracold Fermi gas with a p-wave interaction. Within the framework of a strong-coupling T-matrix theory, we calculate the single-particle density of states (DOS) at the superfluid phase transition temperature T_c. Starting from the weak-coupling regime, we show that the so-called pseudogap structure develops in DOS, with increasing the strength of a pairing interaction. However, in contrast to the case of s-wave interaction (where the pseudogap size in DOS monotonically increases with increasing the interaction strength), the pseudogap structure is found to gradually disappear in the strong-coupling regime. We point out that this non-monotonic behavior of pseudogap originates from the momentum dependence of p-wave interaction. Our results clarify how the symmetry of pairing interaction affects pseudogap phenomena in strongly correlated fermion systems.

Original language	English
Title of host publication	Proceedings of 2011 1st International Symposium on Access Spaces, ISAS 2011
Pages	23-25
Number of pages	3
DOIs	https://doi.org/10.1109/ISAS.2011.5960914
Publication status	Published - 2011
Event	2011 1st International Symposium on Access Spaces, ISAS 2011 - Yokohama, Japan Duration: 2011 Jun 17 → 2011 Jun 19

Publication series

Name	Proceedings of 2011 1st International Symposium on Access Spaces, ISAS 2011

Other

Other	2011 1st International Symposium on Access Spaces, ISAS 2011
Country/Territory	Japan
City	Yokohama
Period	11/6/17 → 11/6/19

Keywords

Pseudogap
Superfluidity
Ultracold Fermi gas

ASJC Scopus subject areas

Computer Networks and Communications
Electrical and Electronic Engineering

Access to Document

10.1109/ISAS.2011.5960914

Cite this

Pseudogap phenomenon in an ultracold Fermi gas with a p-wave interaction. / Inotani, Daisuke; Watanabe, Ryota; Sigrist, Manfred et al.
Proceedings of 2011 1st International Symposium on Access Spaces, ISAS 2011. 2011. p. 23-25 5960914 (Proceedings of 2011 1st International Symposium on Access Spaces, ISAS 2011).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

Inotani, D, Watanabe, R, Sigrist, M & Ohashi, Y 2011, Pseudogap phenomenon in an ultracold Fermi gas with a p-wave interaction. in Proceedings of 2011 1st International Symposium on Access Spaces, ISAS 2011., 5960914, Proceedings of 2011 1st International Symposium on Access Spaces, ISAS 2011, pp. 23-25, 2011 1st International Symposium on Access Spaces, ISAS 2011, Yokohama, Japan, 11/6/17. https://doi.org/10.1109/ISAS.2011.5960914

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title = "Pseudogap phenomenon in an ultracold Fermi gas with a p-wave interaction",

abstract = "We investigate fluctuation effects in a single-component ultracold Fermi gas with a p-wave interaction. Within the framework of a strong-coupling T-matrix theory, we calculate the single-particle density of states (DOS) at the superfluid phase transition temperature Tc. Starting from the weak-coupling regime, we show that the so-called pseudogap structure develops in DOS, with increasing the strength of a pairing interaction. However, in contrast to the case of s-wave interaction (where the pseudogap size in DOS monotonically increases with increasing the interaction strength), the pseudogap structure is found to gradually disappear in the strong-coupling regime. We point out that this non-monotonic behavior of pseudogap originates from the momentum dependence of p-wave interaction. Our results clarify how the symmetry of pairing interaction affects pseudogap phenomena in strongly correlated fermion systems.",

keywords = "Pseudogap, Superfluidity, Ultracold Fermi gas",

author = "Daisuke Inotani and Ryota Watanabe and Manfred Sigrist and Yoji Ohashi",

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doi = "10.1109/ISAS.2011.5960914",

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AU - Inotani, Daisuke

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AU - Sigrist, Manfred

AU - Ohashi, Yoji

PY - 2011

Y1 - 2011

N2 - We investigate fluctuation effects in a single-component ultracold Fermi gas with a p-wave interaction. Within the framework of a strong-coupling T-matrix theory, we calculate the single-particle density of states (DOS) at the superfluid phase transition temperature Tc. Starting from the weak-coupling regime, we show that the so-called pseudogap structure develops in DOS, with increasing the strength of a pairing interaction. However, in contrast to the case of s-wave interaction (where the pseudogap size in DOS monotonically increases with increasing the interaction strength), the pseudogap structure is found to gradually disappear in the strong-coupling regime. We point out that this non-monotonic behavior of pseudogap originates from the momentum dependence of p-wave interaction. Our results clarify how the symmetry of pairing interaction affects pseudogap phenomena in strongly correlated fermion systems.

AB - We investigate fluctuation effects in a single-component ultracold Fermi gas with a p-wave interaction. Within the framework of a strong-coupling T-matrix theory, we calculate the single-particle density of states (DOS) at the superfluid phase transition temperature Tc. Starting from the weak-coupling regime, we show that the so-called pseudogap structure develops in DOS, with increasing the strength of a pairing interaction. However, in contrast to the case of s-wave interaction (where the pseudogap size in DOS monotonically increases with increasing the interaction strength), the pseudogap structure is found to gradually disappear in the strong-coupling regime. We point out that this non-monotonic behavior of pseudogap originates from the momentum dependence of p-wave interaction. Our results clarify how the symmetry of pairing interaction affects pseudogap phenomena in strongly correlated fermion systems.

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KW - Superfluidity

KW - Ultracold Fermi gas

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Pseudogap phenomenon in an ultracold Fermi gas with a p-wave interaction

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