High-resolution and low-background 163 Ho spectrum › Научные исследования в СПбГУ

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High-resolution and low-background ¹⁶³ Ho spectrum : interpretation of the resonance tails. / Velte, C.; Ahrens, F.; Barth, A.; Blaum, K.; Braß, M.; Door, M.; Dorrer, H.; Düllmann, Ch E.; Enss, C.; Filianin, P.; Fleischmann, A.; Gastaldo, L.; Goeggelmann, A.; Goodacre, T. Day; Haverkort, M. W.; Hengstler, D.; Jochum, J.; Johnston, K.; Keller, M.; Kempf, S.; Kieck, T.; König, C. M.; Köster, U.; Kromer, K.; Mantegazzini, F.; Marsh, B.; Novikov, Yu N.; Piquemal, F.; Riccio, C.; Richter, D.; Rischka, A.; Rothe, S.; Schüssler, R. X.; Schweiger, Ch; Stora, T.; Wegner, M.; Wendt, K.; Zampaolo, M.; Zuber, K.

в: European Physical Journal C, Том 79, № 12, 1026, 01.12.2019.

Результаты исследований: Научные публикации в периодических изданиях › статья › Рецензирование

Harvard

Velte, C, Ahrens, F, Barth, A, Blaum, K, Braß, M, Door, M, Dorrer, H, Düllmann, CE, Enss, C, Filianin, P, Fleischmann, A, Gastaldo, L, Goeggelmann, A, Goodacre, TD, Haverkort, MW, Hengstler, D, Jochum, J, Johnston, K, Keller, M, Kempf, S, Kieck, T, König, CM, Köster, U, Kromer, K, Mantegazzini, F, Marsh, B, Novikov, YN, Piquemal, F, Riccio, C, Richter, D, Rischka, A, Rothe, S, Schüssler, RX, Schweiger, C, Stora, T, Wegner, M, Wendt, K, Zampaolo, M & Zuber, K 2019, 'High-resolution and low-background ¹⁶³ Ho spectrum: interpretation of the resonance tails', European Physical Journal C, Том. 79, № 12, 1026. https://doi.org/10.1140/epjc/s10052-019-7513-x

APA

Velte, C., Ahrens, F., Barth, A., Blaum, K., Braß, M., Door, M., Dorrer, H., Düllmann, C. E., Enss, C., Filianin, P., Fleischmann, A., Gastaldo, L., Goeggelmann, A., Goodacre, T. D., Haverkort, M. W., Hengstler, D., Jochum, J., Johnston, K., Keller, M., ... Zuber, K. (2019). High-resolution and low-background ¹⁶³ Ho spectrum: interpretation of the resonance tails. European Physical Journal C, 79(12), [1026]. https://doi.org/10.1140/epjc/s10052-019-7513-x

Vancouver

Velte C, Ahrens F, Barth A, Blaum K, Braß M, Door M и пр. High-resolution and low-background ¹⁶³ Ho spectrum: interpretation of the resonance tails. European Physical Journal C. 2019 Дек. 1;79(12). 1026. https://doi.org/10.1140/epjc/s10052-019-7513-x

Author

Velte, C. ; Ahrens, F. ; Barth, A. ; Blaum, K. ; Braß, M. ; Door, M. ; Dorrer, H. ; Düllmann, Ch E. ; Enss, C. ; Filianin, P. ; Fleischmann, A. ; Gastaldo, L. ; Goeggelmann, A. ; Goodacre, T. Day ; Haverkort, M. W. ; Hengstler, D. ; Jochum, J. ; Johnston, K. ; Keller, M. ; Kempf, S. ; Kieck, T. ; König, C. M. ; Köster, U. ; Kromer, K. ; Mantegazzini, F. ; Marsh, B. ; Novikov, Yu N. ; Piquemal, F. ; Riccio, C. ; Richter, D. ; Rischka, A. ; Rothe, S. ; Schüssler, R. X. ; Schweiger, Ch ; Stora, T. ; Wegner, M. ; Wendt, K. ; Zampaolo, M. ; Zuber, K. / High-resolution and low-background ¹⁶³ Ho spectrum : interpretation of the resonance tails. в: European Physical Journal C. 2019 ; Том 79, № 12.

BibTeX

@article{6d9cdb9238fd40d88b78840f7360991d,

title = "High-resolution and low-background 163 Ho spectrum: interpretation of the resonance tails",

abstract = "The determination of the effective electron neutrino mass via kinematic analysis of beta and electron capture spectra is considered to be model-independent since it relies on energy and momentum conservation. At the same time the precise description of the expected spectrum goes beyond the simple phase space term. In particular for electron capture processes, many-body electron-electron interactions lead to additional structures besides the main resonances in calorimetrically measured spectra. A precise description of the 163Ho spectrum is fundamental for understanding the impact of low intensity structures at the endpoint region where a finite neutrino mass affects the shape most strongly. We present a low-background and high-energy resolution measurement of the 163Ho spectrum obtained in the framework of the ECHo experiment. We study the line shape of the main resonances and multiplets with intensities spanning three orders of magnitude. We discuss the need to introduce an asymmetric line shape contribution due to Auger–Meitner decay of states above the auto-ionisation threshold. With this we determine an enhancement of count rate at the endpoint region of about a factor of 2, which in turn leads to an equal reduction in the required exposure of the experiment to achieve a given sensitivity on the effective electron neutrino mass.",

author = "C. Velte and F. Ahrens and A. Barth and K. Blaum and M. Bra{\ss} and M. Door and H. Dorrer and D{\"u}llmann, {Ch E.} and C. Enss and P. Filianin and A. Fleischmann and L. Gastaldo and A. Goeggelmann and Goodacre, {T. Day} and Haverkort, {M. W.} and D. Hengstler and J. Jochum and K. Johnston and M. Keller and S. Kempf and T. Kieck and K{\"o}nig, {C. M.} and U. K{\"o}ster and K. Kromer and F. Mantegazzini and B. Marsh and Novikov, {Yu N.} and F. Piquemal and C. Riccio and D. Richter and A. Rischka and S. Rothe and Sch{\"u}ssler, {R. X.} and Ch Schweiger and T. Stora and M. Wegner and K. Wendt and M. Zampaolo and K. Zuber",

year = "2019",

month = dec,

day = "1",

doi = "10.1140/epjc/s10052-019-7513-x",

language = "English",

volume = "79",

journal = "European Physical Journal C",

issn = "1434-6044",

publisher = "Springer Nature",

number = "12",

}

RIS

TY - JOUR

T1 - High-resolution and low-background 163 Ho spectrum

T2 - interpretation of the resonance tails

AU - Velte, C.

AU - Ahrens, F.

AU - Barth, A.

AU - Blaum, K.

AU - Braß, M.

AU - Door, M.

AU - Dorrer, H.

AU - Düllmann, Ch E.

AU - Enss, C.

AU - Filianin, P.

AU - Fleischmann, A.

AU - Gastaldo, L.

AU - Goeggelmann, A.

AU - Goodacre, T. Day

AU - Haverkort, M. W.

AU - Hengstler, D.

AU - Jochum, J.

AU - Johnston, K.

AU - Keller, M.

AU - Kempf, S.

AU - Kieck, T.

AU - König, C. M.

AU - Köster, U.

AU - Kromer, K.

AU - Mantegazzini, F.

AU - Marsh, B.

AU - Novikov, Yu N.

AU - Piquemal, F.

AU - Riccio, C.

AU - Richter, D.

AU - Rischka, A.

AU - Rothe, S.

AU - Schüssler, R. X.

AU - Schweiger, Ch

AU - Stora, T.

AU - Wegner, M.

AU - Wendt, K.

AU - Zampaolo, M.

AU - Zuber, K.

PY - 2019/12/1

Y1 - 2019/12/1

N2 - The determination of the effective electron neutrino mass via kinematic analysis of beta and electron capture spectra is considered to be model-independent since it relies on energy and momentum conservation. At the same time the precise description of the expected spectrum goes beyond the simple phase space term. In particular for electron capture processes, many-body electron-electron interactions lead to additional structures besides the main resonances in calorimetrically measured spectra. A precise description of the 163Ho spectrum is fundamental for understanding the impact of low intensity structures at the endpoint region where a finite neutrino mass affects the shape most strongly. We present a low-background and high-energy resolution measurement of the 163Ho spectrum obtained in the framework of the ECHo experiment. We study the line shape of the main resonances and multiplets with intensities spanning three orders of magnitude. We discuss the need to introduce an asymmetric line shape contribution due to Auger–Meitner decay of states above the auto-ionisation threshold. With this we determine an enhancement of count rate at the endpoint region of about a factor of 2, which in turn leads to an equal reduction in the required exposure of the experiment to achieve a given sensitivity on the effective electron neutrino mass.

AB - The determination of the effective electron neutrino mass via kinematic analysis of beta and electron capture spectra is considered to be model-independent since it relies on energy and momentum conservation. At the same time the precise description of the expected spectrum goes beyond the simple phase space term. In particular for electron capture processes, many-body electron-electron interactions lead to additional structures besides the main resonances in calorimetrically measured spectra. A precise description of the 163Ho spectrum is fundamental for understanding the impact of low intensity structures at the endpoint region where a finite neutrino mass affects the shape most strongly. We present a low-background and high-energy resolution measurement of the 163Ho spectrum obtained in the framework of the ECHo experiment. We study the line shape of the main resonances and multiplets with intensities spanning three orders of magnitude. We discuss the need to introduce an asymmetric line shape contribution due to Auger–Meitner decay of states above the auto-ionisation threshold. With this we determine an enhancement of count rate at the endpoint region of about a factor of 2, which in turn leads to an equal reduction in the required exposure of the experiment to achieve a given sensitivity on the effective electron neutrino mass.

UR - http://www.scopus.com/inward/record.url?scp=85077050107&partnerID=8YFLogxK

U2 - 10.1140/epjc/s10052-019-7513-x

DO - 10.1140/epjc/s10052-019-7513-x

M3 - Article

AN - SCOPUS:85077050107

VL - 79

JO - European Physical Journal C

JF - European Physical Journal C

SN - 1434-6044

IS - 12

M1 - 1026

ER -

ID: 52169476