Development of a New Generation Multi-Element Monolithic HPGe sensor for XAFS applications

Gimenez, E. N.; Balerna, A.; Cascella, M.; Chatterji, S.; Cohen, C.; Fajardo, P.; Graafsma, H.; Goyal, N.; Hirsemann, H.; Iguaz, F. J.; Klementiev, K.; Kołodziej, T.; Martin, T.; Menk, R. H.; Porro, M.; Quispe, M.; Schmitt, B.; Scully, S.; Spiers, J.; Turcato, M.; Ward, C.; Welter, E.

Development of a New Generation Multi-Element Monolithic HPGe sensor for XAFS applications

Mark

Gimenez, E. N. ; Balerna, A. ; Cascella, M. ^LU

; Chatterji, S. ; Cohen, C. ; Fajardo, P. ; Graafsma, H. ; Goyal, N. ; Hirsemann, H. and Iguaz, F. J. , et al. (2025) 15th International Conference on Synchrotron Radiation Instrumentation, SRI 2024 In Journal of Physics: Conference Series 3010.

Abstract: Recent upgrades in synchrotron radiation facilities, which now produce highly brilliant and coherent beams, result in a broader array of experiments challenging the available detectors. In X-ray Absorption Fine Structure (XAFS) experiments, detector performance is often a limiting factor, especially with the high photon fluxes from upgraded facilities. Within this context, a consortium of European facilities has joined under the LEAPS-INNOV project to push the current technologies and develop a germanium detector that can operate under high photon fluxes. The latest status of the XAFS detector development is presented here. The project has moved from the design and simulations phase to the assembled stage, with the sensor, electronic... (More); Recent upgrades in synchrotron radiation facilities, which now produce highly brilliant and coherent beams, result in a broader array of experiments challenging the available detectors. In X-ray Absorption Fine Structure (XAFS) experiments, detector performance is often a limiting factor, especially with the high photon fluxes from upgraded facilities. Within this context, a consortium of European facilities has joined under the LEAPS-INNOV project to push the current technologies and develop a germanium detector that can operate under high photon fluxes. The latest status of the XAFS detector development is presented here. The project has moved from the design and simulations phase to the assembled stage, with the sensor, electronic chain and mechanics being manufactured and tested. Next steps are focused on integrating all parts together and characterize the detector performance with X-ray beam.
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Please use this url to cite or link to this publication: https://lup.lub.lu.se/record/6dc6a297-28de-4308-8eb9-022d5e5d9fa5

author

Gimenez, E. N. ; Balerna, A. ; Cascella, M. ^LU

; Chatterji, S. ; Cohen, C. ; Fajardo, P. ; Graafsma, H. ; Goyal, N. ; Hirsemann, H. and Iguaz, F. J. , et al. (More)

Gimenez, E. N. ; Balerna, A. ; Cascella, M. ^LU

; Chatterji, S. ; Cohen, C. ; Fajardo, P. ; Graafsma, H. ; Goyal, N. ; Hirsemann, H. ; Iguaz, F. J. ; Klementiev, K. ^LU ; Kołodziej, T. ; Martin, T. ; Menk, R. H. ; Porro, M. ; Quispe, M. ; Schmitt, B. ; Scully, S. ; Spiers, J. ; Turcato, M. ; Ward, C. ^LU and Welter, E. (Less)

organization

publishing date

2025

type

Chapter in Book/Report/Conference proceeding

publication status

published

subject

Subatomic Physics

host publication

Journal of Physics: Conference Series

series title

Journal of Physics: Conference Series

volume

3010

edition

1

conference name

15th International Conference on Synchrotron Radiation Instrumentation, SRI 2024

conference location

Hamburg, Germany

conference dates

2024-08-26 - 2024-08-30

external identifiers

scopus:105007987830

ISSN

1742-6588

DOI

10.1088/1742-6596/3010/1/012144

language

English

LU publication?

yes

id

6dc6a297-28de-4308-8eb9-022d5e5d9fa5

date added to LUP

2026-01-27 11:01:24

date last changed

2026-01-27 11:01:57

@inproceedings{6dc6a297-28de-4308-8eb9-022d5e5d9fa5,
  abstract     = {{<p>Recent upgrades in synchrotron radiation facilities, which now produce highly brilliant and coherent beams, result in a broader array of experiments challenging the available detectors. In X-ray Absorption Fine Structure (XAFS) experiments, detector performance is often a limiting factor, especially with the high photon fluxes from upgraded facilities. Within this context, a consortium of European facilities has joined under the LEAPS-INNOV project to push the current technologies and develop a germanium detector that can operate under high photon fluxes. The latest status of the XAFS detector development is presented here. The project has moved from the design and simulations phase to the assembled stage, with the sensor, electronic chain and mechanics being manufactured and tested. Next steps are focused on integrating all parts together and characterize the detector performance with X-ray beam.</p>}},
  author       = {{Gimenez, E. N. and Balerna, A. and Cascella, M. and Chatterji, S. and Cohen, C. and Fajardo, P. and Graafsma, H. and Goyal, N. and Hirsemann, H. and Iguaz, F. J. and Klementiev, K. and Kołodziej, T. and Martin, T. and Menk, R. H. and Porro, M. and Quispe, M. and Schmitt, B. and Scully, S. and Spiers, J. and Turcato, M. and Ward, C. and Welter, E.}},
  booktitle    = {{Journal of Physics: Conference Series}},
  issn         = {{1742-6588}},
  language     = {{eng}},
  series       = {{Journal of Physics: Conference Series}},
  title        = {{Development of a New Generation Multi-Element Monolithic HPGe sensor for XAFS applications}},
  url          = {{http://dx.doi.org/10.1088/1742-6596/3010/1/012144}},
  doi          = {{10.1088/1742-6596/3010/1/012144}},
  volume       = {{3010}},
  year         = {{2025}},
}

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Development of a New Generation Multi-Element Monolithic HPGe sensor for XAFS applications