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Microcalorimeters for X-Ray Spectroscopy of Highly Charged Ions at Storage Rings

Kraft-Bermuth, Saskia ; Hengstler, Daniel ; Egelhof, Peter ; [et al.]

MDPI AG ; 2018

In: Atoms Vol. 6, No. 4 ( 2018-11-02), p. 59-

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In: Atoms, MDPI AG, Vol. 6, No. 4 ( 2018-11-02), p. 59-

Abstract: X-ray spectroscopy of highly charged heavy ions is an important tool for the investigation of many topics in atomic physics. Such highly charged ions, in particular hydrogen-like uranium, are investigated at heavy ion storage rings, where high charge states can be produced in large quantities, stored for long times and cooled to low momentum spread of the ion beam. One prominent example is the determination of the 1s Lamb Shift in hydrogen-like heavy ions, which has been investigated at the Experimental Storage Ring (ESR) at the GSI Helmholtz Centre for Heavy Ion Research. Due to the large electron binding energies, the energies of the corresponding photon transitions are located in the X-ray regime. To determine the transition energies with high accuracy, highly resolving X-ray spectrometers are needed. One concept of such spectrometers is the concept of microcalorimeters, which, in contrast to semiconductor detectors, uses the detection of heat rather than charge to detect energy. Such detectors have been developed and successfully applied in experiments at the ESR. For experiments at the Facility for Antiproton and Ion Research (FAIR), the Stored Particles and Atoms Collaboration (SPARC) pursues the development of new microcalorimeter concepts and larger detector arrays. Next to fundamental investigations on quantum electrodynamics such as the 1s Lamb Shift or electron–electron interactions in two- and three-electron systems, X-ray spectroscopy may be extended towards nuclear physics investigations like the determination of nuclear charge radii.

Type of Medium: Online Resource

ISSN: 2218-2004

URL: Article

DOI: 10.3390/atoms6040059

Language: English

Publisher: MDPI AG

Publication Date: 2018

detail.hit.zdb_id: 2704220-0

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A new Time-of-flight detector for the R$$^3$$B setup

Heil, M. ; Kelić-Heil, A. ; Bott, L. ; [et al.]

Springer Science and Business Media LLC ; 2022

In: The European Physical Journal A Vol. 58, No. 12 ( 2022-12-16)

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In: The European Physical Journal A, Springer Science and Business Media LLC, Vol. 58, No. 12 ( 2022-12-16)

Abstract: We present the design, prototype developments and test results of the new time-of-flight detector (ToFD) which is part of the R $$^3$$ 3 B experimental setup at GSI and FAIR, Darmstadt, Germany. The ToFD detector is able to detect heavy-ion residues of all charges at relativistic energies with a relative energy precision $$\sigma _{\varDelta E}/{\varDelta E}$$ σ Δ E / Δ E of up to 1% and a time precision of up to 14 ps (sigma). Together with an elaborate particle-tracking system, the full identification of relativistic ions from hydrogen up to uranium in mass and nuclear charge is possible.

Type of Medium: Online Resource

ISSN: 1434-601X

URL: Article

DOI: 10.1140/epja/s10050-022-00875-8

Language: English

Publisher: Springer Science and Business Media LLC

Publication Date: 2022

detail.hit.zdb_id: 1413603-X

detail.hit.zdb_id: 1459066-9

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Application of Calorimetric Low-Temperature Detectors for the Investigation of Z-Yield Distributions of Fission Fragments

Dubey, Santwana ; Echler, Artur ; Egelhof, Peter ; [et al.]

EDP Sciences ; 2018

In: EPJ Web of Conferences Vol. 193 ( 2018), p. 04002-

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In: EPJ Web of Conferences, EDP Sciences, Vol. 193 ( 2018), p. 04002-

Abstract: In recent experiments, the new concept of calorimetric low-temperature detectors (CLTDs) was applied for the first time for the investigation of isotopic yields of fission fragments. Fragments from neutron-induced fission sources were mass-separated by the LOHENGRIN spectrometer at the ILL Grenoble and, after passing silicon nitride membranes used as degraders, detected in a CLTD array. The new detector concept of a thermal detector provides a fundamental advantage over conventional ionization-mediated detectors, in particular for heavier particle masses at low energies. Using fissile targets of 235 U, 239 Pu and 241 Pu, nuclear-charge separation was studied in the mass region 82 ≤ A ≤ 139. For light fragments, the Z resolution matches historically best values with conventional techniques, while for heavier masses substantial improvement was attained. We have gained first LOHENGRIN data on the isotopic yields in the light-mass group of 241 Pu. Towards mass-symmetry, known Z-yield data were supplemented in the range A = 110 to 113 for 241 Pu and 239 Pu. Extended data sets were cumulated for A = 92 and 96 due to a recent request from studies on the reactor anti-neutrino spectrum. Furthermore, considerable progress was achieved to extend isotopic yield measurements up to the heavy-mass region, hardly accessible until now.

Type of Medium: Online Resource

ISSN: 2100-014X

URL: Article

DOI: 10.1051/epjconf/201819304002

Language: English

Publisher: EDP Sciences

Publication Date: 2018

detail.hit.zdb_id: 2595425-8

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