J. Bundgaard scite author profile

By combining the time-of-flight or LIDAR principle with a Thomson backscatter diagnostic, spatial profiles of the electron temperature and density are measured in a magnetically confined fusion plasma. This technique was realized for the first time on the JET tokamak. A ruby laser (3-J pulse energy, 300-ps pulse duration, 0.5-Hz repetition rate) together with a 700-MHz bandwidth detection and registration system yields a spatial resolution of about 12 cm. A spectrometer with six channels in the wavelength range 400–800 nm gives a dynamic range of the temperature measurements of 0.3–20 keV. The stray light problem in the backscatter geometry is overcome by spectral discrimination and gating of the photomultipliers. A ruby filter in the spectral channel containing the laser wavelength allows calibration of the vignetting along the line of sight by means of Raman scattering, enabling the measurement of density profiles. The low level of background signal due to the short integration time for a single spatial point yields low statistical errors (ΔTe /Te ≊6%, Δne /ne ≊4% at Te =6 keV, ne =3×1019 m−3 ). Goodness-of-fit tests indicate that the systematic errors are within the same limits. The system is described and examples of measurements are given.

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A time projection chamber for high accuracy and precision fission cross-section measurements

Heffner

Asner

Baker

et al. 2014

Nuclear Instruments and Methods in Physics Research Section A:

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The fission Time Projection Chamber (fissionTPC) is a compact (15 cm diameter) two-chamber MICROMEGAS TPC designed to make precision cross section measurements of neutron-induced fission. The actinide targets are placed on the central cathode and irradiated with a neutron beam that passes axially through the TPC inducing fission in the target. The 4π acceptance for fission fragments and complete charged particle track reconstruction are powerful features of the fissionTPC which will be used to measure fission cross sections and examine the associated systematic errors. This paper provides a detailed description of the design requirements, the design solutions, and the initial performance of the fissionTPC.

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Measurement of the 239Pu(n,f)/235U(n,f) Cross-Section Ratio with the NIFFTE fission Time Projection Chamber

Snyder¹,

Anastasiou²,

Bowden³

et al. 2021

Nuclear Data Sheets

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Measurement of the normalized U238(n,f)/U235(n,
Casperson¹,
Asner²,
Baker³
et al. 2018
Phys. Rev. C
21
0
11
0
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Fission fragment angular anisotropy in neutron-induced fission of U235 measured with a time projection chamber

Geppert-Kleinrath

Tôvesson²,

Barrett³

et al. 2019

Phys. Rev. C

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Fission fragment angular distributions can provide an important constraint on fission theory, improving predictive fission codes, and are a prerequisite for a precise ratio cross section measurement. Available anisotropy data is sparse, especially at neutron energies above 5 MeV. For the first time, a three-dimensional tracking detector is employed to study fragment emission angles and provide a direct measurement of angular anisotropy. The Neutron Induced Fission Fragment Tracking Experiment (NIFFTE) collaboration has deployed the fission time projection chamber (fissionTPC) to measure nuclear data with unprecedented precision. The fission fragment anisotropy of 235 U has been measured over a wide range of incident neutron energies from 180 keV to 200 MeV; a careful study of the systematic uncertainties complement the data.

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J. Bundgaard

The LIDAR Thomson scattering diagnostic on JET (invited)

A time projection chamber for high accuracy and precision fission cross-section measurements

Measurement of the 239Pu(n,f)/235U(n,f) Cross-Section Ratio with the NIFFTE fission Time Projection Chamber

Measurement of the normalized U238(n,f)/U235(n,
Casperson¹,
Asner²,
Baker³
et al. 2018
Phys. Rev. C
21
0
11
0
View full text Add to dashboard Cite

Fission fragment angular anisotropy in neutron-induced fission of U235 measured with a time projection chamber

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Resources

About

J. Bundgaard

The LIDAR Thomson scattering diagnostic on JET (invited)

A time projection chamber for high accuracy and precision fission cross-section measurements

Measurement of the 239Pu(n,f)/235U(n,f) Cross-Section Ratio with the NIFFTE fission Time Projection Chamber

Measurement of the normalized U238(n,f)/U235(n,Casperson1, Asner2, Baker3 et al. 2018Phys. Rev. C210110View full textAdd to dashboardCite

Fission fragment angular anisotropy in neutron-induced fission of U235 measured with a time projection chamber

Contact Info

Product

Resources

About

Measurement of the normalized U238(n,f)/U235(n,
Casperson¹,
Asner²,
Baker³
et al. 2018
Phys. Rev. C
21
0
11
0
View full text Add to dashboard Cite