F. Ayala Guardia scite author profile

The retardation spectrometer aSPECT was built to measure the shape of the proton spectrum in free neutron decay with high precision. This allows us to determine the antineutrino electron angular correlation coefficient a. We aim for a precision more than one order of magnitude better than the present best value, which is ∆a/a = 5 %.In a recent beam time performed at the Institut Laue-Langevin during April / May 2008 we reached a statistical accuracy of about 2 % per 24 hours measurement time. Several systematic effects were investigated experimentally. We expect the total relative uncertainty to be well below 5 %.

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The Proton Spectrum in Neutron Beta Decay: Latest Results with the aSPECT Spectrometer

Konrad

Guardia

Baeßler

et al. 2009

Nuclear Physics A

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The magnetic shielding for the neutron decay spectrometer aSPECT

Konrad¹,

Guardia²,

Baeßler³

et al. 2014

Nuclear Instruments and Methods in Physics Research Section A:

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Many experiments in nuclear and neutron physics are confronted with the problem that they use a superconducting magnetic spectrometer which potentially affects other experiments by their stray magnetic field. The retardation spectrometer aSPECT consists, inter alia, of a superconducting magnet system that produces a strong longitudinal magnetic field of up to 6.2 T. In order not to disturb other experiments in the vicinity of aSPECT, we had to develop a magnetic field return yoke for the magnet system. While the return yoke must reduce the stray magnetic field, the internal magnetic field and its homogeneity should not be affected. As in many cases, the magnetic shielding for aSPECT must manage with limited space. In addition, we must ensure that the additional magnetic forces on the magnet coils are not destructive.In order to determine the most suitable geometry for the magnetic shielding for aSPECT, we simulated a variety of possible geometries and combinations of shielding materials of non-linear permeability. The results of our simulations were checked through magnetic field measurements both with Hall and nuclear magnetic resonance probes. The experimental data are in good agreement with the simulated values: The mean deviation from the simulated exterior magnetic field is (−1.7 ± 4.8) %. However, in the two critical regions, the internal magnetic field deviates by 0.2 % respectively < 1 × 10 −4 from the simulated values.

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F. Ayala Guardia

First measurements with the neutron decay spectrometer a SPECT

Improved determination of the β−ν¯e angular correlation coefficient a in free neutron decay with the aSPECT
Beck
¹
,
Guardia
²
,
Borg
³

et al. 2020
Phys. Rev. C
50
1
32
0
View full text Add to dashboard Cite

Measuring the proton spectrum in neutron decay—Latest results with aSPECT

The Proton Spectrum in Neutron Beta Decay: Latest Results with the aSPECT Spectrometer

The magnetic shielding for the neutron decay spectrometer aSPECT

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Resources

About

F. Ayala Guardia

First measurements with the neutron decay spectrometer a SPECT

Improved determination of the β−ν¯e angular correlation coefficient a in free neutron decay with the aSPECTBeck1, Guardia2, Borg3 et al. 2020Phys. Rev. C501320View full textAdd to dashboardCite

Measuring the proton spectrum in neutron decay—Latest results with aSPECT

The Proton Spectrum in Neutron Beta Decay: Latest Results with the aSPECT Spectrometer

The magnetic shielding for the neutron decay spectrometer aSPECT

Contact Info

Product

Resources

About

Improved determination of the β−ν¯e angular correlation coefficient a in free neutron decay with the aSPECT
Beck
¹
,
Guardia
²
,
Borg
³

et al. 2020
Phys. Rev. C
50
1
32
0
View full text Add to dashboard Cite