Neutron bound beta-decay: BOB

Josephine McAndrew; Stephan Paul; Ralf Emmerich; Ralf Engels; Peter Fierlinger; Mirko Gabriel; Erwin Gutsmiedl; Johannes Mellenthin; Johannes Schön; Wolfgang Schott; Andreas Ulrich; Florian Grüenauer; Anton Röhrmoser

doi:10.1007/s10751-011-0494-2

Neutron bound beta-decay: BOB

Josephine McAndrew, Stephan Paul, Ralf Emmerich, Ralf Engels, Peter Fierlinger, Mirko Gabriel, Erwin Gutsmiedl, Johannes Mellenthin, Johannes Schön, Wolfgang Schott, Andreas Ulrich, Florian Grüenauer, Anton Röhrmoser

Chair of Physics I

Research output: Contribution to journal › Article › peer-review

3 Scopus citations

Abstract

An experiment to observe the bound beta-decay (BOB) of the free neutron into a hydrogen atom and an electron anti-neutrino is described. The hyperfine spin state population of the monoenergetic hydrogen atom yields the neutrino left-handedness or possible right-handed admixture as well as possible small scalar and tensor contributions to the weak force. The BOB H(2s) hyperfine states can be separated with a Lamb-Shift Spin Filter. These monoenergetic H(2s) atoms are ionised into H ^- by charge exchanging within an argon cell. These ions are then separated using an adaptation of a MAC-E Filter. A first experiment is proposed at the FRMII high thermal-neutron flux beam reactor SR6 through-going beam tube, where we will seek to observe this rare neutron decay-mode for the first time and determine the branching ratio. After successful completion, the hyperfine spin state population will be determined, possibly at the ILL high-flux beam reactor through-going beam tube H6-H7, where the thermal neutron flux is a factor of four larger.

Original language	English
Pages (from-to)	13-17
Number of pages	5
Journal	Hyperfine Interactions
Volume	210
Issue number	1-3
DOIs	https://doi.org/10.1007/s10751-011-0494-2
State	Published - May 2012

Keywords

Neutrino helicity
Neutron
Scalar coupling constant
Tensor coupling constant
Weak interaction

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10.1007/s10751-011-0494-2

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title = "Neutron bound beta-decay: BOB",

abstract = "An experiment to observe the bound beta-decay (BOB) of the free neutron into a hydrogen atom and an electron anti-neutrino is described. The hyperfine spin state population of the monoenergetic hydrogen atom yields the neutrino left-handedness or possible right-handed admixture as well as possible small scalar and tensor contributions to the weak force. The BOB H(2s) hyperfine states can be separated with a Lamb-Shift Spin Filter. These monoenergetic H(2s) atoms are ionised into H - by charge exchanging within an argon cell. These ions are then separated using an adaptation of a MAC-E Filter. A first experiment is proposed at the FRMII high thermal-neutron flux beam reactor SR6 through-going beam tube, where we will seek to observe this rare neutron decay-mode for the first time and determine the branching ratio. After successful completion, the hyperfine spin state population will be determined, possibly at the ILL high-flux beam reactor through-going beam tube H6-H7, where the thermal neutron flux is a factor of four larger.",

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author = "Josephine McAndrew and Stephan Paul and Ralf Emmerich and Ralf Engels and Peter Fierlinger and Mirko Gabriel and Erwin Gutsmiedl and Johannes Mellenthin and Johannes Sch{\"o}n and Wolfgang Schott and Andreas Ulrich and Florian Gr{\"u}enauer and Anton R{\"o}hrmoser",

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doi = "10.1007/s10751-011-0494-2",

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AU - McAndrew, Josephine

AU - Paul, Stephan

AU - Emmerich, Ralf

AU - Engels, Ralf

AU - Fierlinger, Peter

AU - Gabriel, Mirko

AU - Gutsmiedl, Erwin

AU - Mellenthin, Johannes

AU - Schön, Johannes

AU - Schott, Wolfgang

AU - Ulrich, Andreas

AU - Grüenauer, Florian

AU - Röhrmoser, Anton

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Y1 - 2012/5

N2 - An experiment to observe the bound beta-decay (BOB) of the free neutron into a hydrogen atom and an electron anti-neutrino is described. The hyperfine spin state population of the monoenergetic hydrogen atom yields the neutrino left-handedness or possible right-handed admixture as well as possible small scalar and tensor contributions to the weak force. The BOB H(2s) hyperfine states can be separated with a Lamb-Shift Spin Filter. These monoenergetic H(2s) atoms are ionised into H - by charge exchanging within an argon cell. These ions are then separated using an adaptation of a MAC-E Filter. A first experiment is proposed at the FRMII high thermal-neutron flux beam reactor SR6 through-going beam tube, where we will seek to observe this rare neutron decay-mode for the first time and determine the branching ratio. After successful completion, the hyperfine spin state population will be determined, possibly at the ILL high-flux beam reactor through-going beam tube H6-H7, where the thermal neutron flux is a factor of four larger.

AB - An experiment to observe the bound beta-decay (BOB) of the free neutron into a hydrogen atom and an electron anti-neutrino is described. The hyperfine spin state population of the monoenergetic hydrogen atom yields the neutrino left-handedness or possible right-handed admixture as well as possible small scalar and tensor contributions to the weak force. The BOB H(2s) hyperfine states can be separated with a Lamb-Shift Spin Filter. These monoenergetic H(2s) atoms are ionised into H - by charge exchanging within an argon cell. These ions are then separated using an adaptation of a MAC-E Filter. A first experiment is proposed at the FRMII high thermal-neutron flux beam reactor SR6 through-going beam tube, where we will seek to observe this rare neutron decay-mode for the first time and determine the branching ratio. After successful completion, the hyperfine spin state population will be determined, possibly at the ILL high-flux beam reactor through-going beam tube H6-H7, where the thermal neutron flux is a factor of four larger.

KW - Neutrino helicity

KW - Neutron

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KW - Tensor coupling constant

KW - Weak interaction

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Neutron bound beta-decay: BOB

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Keywords

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