Constraints on new gravitylike forces in the nanometer range

Y. Kamiya; K. Itagaki; M. Tani; G. N. Kim; S. Komamiya

doi:10.1103/PhysRevLett.114.161101

Constraints on new gravitylike forces in the nanometer range

Y. Kamiya, K. Itagaki, M. Tani, G. N. Kim, S. Komamiya

研究成果: Article › 査読

46 被引用数 (Scopus)

抄録

We report on a new constraint on gravitylike short-range forces, in which the interaction charge is mass, obtained by measuring the angular distribution of 5 Å neutrons scattering off atomic xenon gas. Around 107 scattering events were collected at the 40 m small angle neutron scattering beam line located at the HANARO research reactor of the Korean Atomic Energy Research Institute. The extracted coupling strengths of new forces in the Yukawa-type parametrization are g2=(0.2±6.8±2.0)×10-15GeV-2 and g2=(-5.3±9.0-2.8+2.7)×10-17GeV-2 for interaction ranges of 0.1 and 1.0 nm, respectively. These strengths correspond to 95% confidence level limits of g2<(1.4±0.2)×10-14GeV-2 and g2<(1.3±0.2)×10-16GeV-2, improving the current limits for interaction ranges between 4 and 0.04 nm by a factor of up to 10.

本文言語	English
論文番号	161101
ジャーナル	Physical Review Letters
巻	114
号	16
DOI	https://doi.org/10.1103/PhysRevLett.114.161101
出版ステータス	Published - 2015 4月 22
外部発表	はい

ASJC Scopus subject areas

物理学および天文学（全般）

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10.1103/PhysRevLett.114.161101

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title = "Constraints on new gravitylike forces in the nanometer range",

abstract = "We report on a new constraint on gravitylike short-range forces, in which the interaction charge is mass, obtained by measuring the angular distribution of 5 {\AA} neutrons scattering off atomic xenon gas. Around 107 scattering events were collected at the 40 m small angle neutron scattering beam line located at the HANARO research reactor of the Korean Atomic Energy Research Institute. The extracted coupling strengths of new forces in the Yukawa-type parametrization are g2=(0.2±6.8±2.0)×10-15GeV-2 and g2=(-5.3±9.0-2.8+2.7)×10-17GeV-2 for interaction ranges of 0.1 and 1.0 nm, respectively. These strengths correspond to 95% confidence level limits of g2<(1.4±0.2)×10-14GeV-2 and g2<(1.3±0.2)×10-16GeV-2, improving the current limits for interaction ranges between 4 and 0.04 nm by a factor of up to 10.",

author = "Y. Kamiya and K. Itagaki and M. Tani and Kim, {G. N.} and S. Komamiya",

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doi = "10.1103/PhysRevLett.114.161101",

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AU - Kamiya, Y.

AU - Itagaki, K.

AU - Tani, M.

AU - Kim, G. N.

AU - Komamiya, S.

PY - 2015/4/22

Y1 - 2015/4/22

N2 - We report on a new constraint on gravitylike short-range forces, in which the interaction charge is mass, obtained by measuring the angular distribution of 5 Å neutrons scattering off atomic xenon gas. Around 107 scattering events were collected at the 40 m small angle neutron scattering beam line located at the HANARO research reactor of the Korean Atomic Energy Research Institute. The extracted coupling strengths of new forces in the Yukawa-type parametrization are g2=(0.2±6.8±2.0)×10-15GeV-2 and g2=(-5.3±9.0-2.8+2.7)×10-17GeV-2 for interaction ranges of 0.1 and 1.0 nm, respectively. These strengths correspond to 95% confidence level limits of g2<(1.4±0.2)×10-14GeV-2 and g2<(1.3±0.2)×10-16GeV-2, improving the current limits for interaction ranges between 4 and 0.04 nm by a factor of up to 10.

AB - We report on a new constraint on gravitylike short-range forces, in which the interaction charge is mass, obtained by measuring the angular distribution of 5 Å neutrons scattering off atomic xenon gas. Around 107 scattering events were collected at the 40 m small angle neutron scattering beam line located at the HANARO research reactor of the Korean Atomic Energy Research Institute. The extracted coupling strengths of new forces in the Yukawa-type parametrization are g2=(0.2±6.8±2.0)×10-15GeV-2 and g2=(-5.3±9.0-2.8+2.7)×10-17GeV-2 for interaction ranges of 0.1 and 1.0 nm, respectively. These strengths correspond to 95% confidence level limits of g2<(1.4±0.2)×10-14GeV-2 and g2<(1.3±0.2)×10-16GeV-2, improving the current limits for interaction ranges between 4 and 0.04 nm by a factor of up to 10.

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Constraints on new gravitylike forces in the nanometer range

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