Recent advances in time-resolved luminescence spectroscopy at MAX IV and PETRA III storage rings

Omelkov, S. I.; Chernenko, K.; Ekström, Jonas; Jurgilaitis, A.; Khadiev, A.; Kivimäki, A.; Kotlov, A.; Kroon, D.; Larsson, J.; Nagirnyi, V.; Novikov, D. V.; Pham, V. T.; Pärna, R.; Romet, I.; Saaring, J.; Schostak, I.; Tiirinen, E.; Tõnisoo, A.; Kirm, M.

Recent advances in time-resolved luminescence spectroscopy at MAX IV and PETRA III storage rings

Mark

Omelkov, S. I. ; Chernenko, K. ^LU ; Ekström, Jonas ; Jurgilaitis, A. ^LU ; Khadiev, A. ; Kivimäki, A. ^LU ; Kotlov, A. ; Kroon, D. ^LU ; Larsson, J. ^LU and Nagirnyi, V. , et al. (2022) 14th International Conference on Synchrotron Radiation Instrumentation, SRI 2021 2380.

Abstract: Short-wavelength synchrotron radiation excitation has been an indispensable tool in the studies of the properties of wide gap materials using time-resolved low-temperature luminescence spectroscopy. In recent years, several setups for such investigations have been launched at MAX IV Laboratory and Photon Science at DESY. Two permanently stationed time-resolved luminescence setups at FinEstBeAMS and P66 beamlines are in operation at MAX IV 1.5 GeV and Petra III storage rings, respectively. Mobile luminescence setups have been developed for studies at FemtoMAX and P23 beamlines. FinEstBeAMS, P66 and P23 provide time resolution from ?1/4160 to 100 ps. The FemtoMAX photon source based on an in-vacuum undulator getting an electron beam from... (More); Short-wavelength synchrotron radiation excitation has been an indispensable tool in the studies of the properties of wide gap materials using time-resolved low-temperature luminescence spectroscopy. In recent years, several setups for such investigations have been launched at MAX IV Laboratory and Photon Science at DESY. Two permanently stationed time-resolved luminescence setups at FinEstBeAMS and P66 beamlines are in operation at MAX IV 1.5 GeV and Petra III storage rings, respectively. Mobile luminescence setups have been developed for studies at FemtoMAX and P23 beamlines. FinEstBeAMS, P66 and P23 provide time resolution from ?1/4160 to 100 ps. The FemtoMAX photon source based on an in-vacuum undulator getting an electron beam from the 3 GeV linear accelerator provides an exceptional time resolution of ?1/430 ps, limited by time response of the photodetector. The performance of the setups, achieved milestones and research challenges are discussed for four new luminescence stations available for the research community with the main focus on time-resolved techniques.
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Please use this url to cite or link to this publication: https://lup.lub.lu.se/record/aedc9d1a-93e3-4087-83e3-f157e2847484

author

Omelkov, S. I. ; Chernenko, K. ^LU ; Ekström, Jonas ; Jurgilaitis, A. ^LU ; Khadiev, A. ; Kivimäki, A. ^LU ; Kotlov, A. ; Kroon, D. ^LU ; Larsson, J. ^LU and Nagirnyi, V. , et al. (More)

Omelkov, S. I. ; Chernenko, K. ^LU ; Ekström, Jonas ; Jurgilaitis, A. ^LU ; Khadiev, A. ; Kivimäki, A. ^LU ; Kotlov, A. ; Kroon, D. ^LU ; Larsson, J. ^LU ; Nagirnyi, V. ; Novikov, D. V. ; Pham, V. T. ^LU ; Pärna, R. ^LU ; Romet, I. ; Saaring, J. ; Schostak, I. ; Tiirinen, E. ; Tõnisoo, A. and Kirm, M. (Less)

organization

publishing date

2022

type

Chapter in Book/Report/Conference proceeding

publication status

published

subject

Accelerator Physics and Instrumentation

host publication

Journal of Physics: Conference Series

volume

2380

article number

012135

edition

1

conference name

14th International Conference on Synchrotron Radiation Instrumentation, SRI 2021

conference location

Virtual, Online

conference dates

2022-03-28 - 2022-04-01

external identifiers

scopus:85146899829

DOI

10.1088/1742-6596/2380/1/012135

language

English

LU publication?

yes

id

aedc9d1a-93e3-4087-83e3-f157e2847484

date added to LUP

2023-02-14 15:50:13

date last changed

2023-12-06 01:38:33

@inproceedings{aedc9d1a-93e3-4087-83e3-f157e2847484,
  abstract     = {{<p>Short-wavelength synchrotron radiation excitation has been an indispensable tool in the studies of the properties of wide gap materials using time-resolved low-temperature luminescence spectroscopy. In recent years, several setups for such investigations have been launched at MAX IV Laboratory and Photon Science at DESY. Two permanently stationed time-resolved luminescence setups at FinEstBeAMS and P66 beamlines are in operation at MAX IV 1.5 GeV and Petra III storage rings, respectively. Mobile luminescence setups have been developed for studies at FemtoMAX and P23 beamlines. FinEstBeAMS, P66 and P23 provide time resolution from ?1/4160 to 100 ps. The FemtoMAX photon source based on an in-vacuum undulator getting an electron beam from the 3 GeV linear accelerator provides an exceptional time resolution of ?1/430 ps, limited by time response of the photodetector. The performance of the setups, achieved milestones and research challenges are discussed for four new luminescence stations available for the research community with the main focus on time-resolved techniques.</p>}},
  author       = {{Omelkov, S. I. and Chernenko, K. and Ekström, Jonas and Jurgilaitis, A. and Khadiev, A. and Kivimäki, A. and Kotlov, A. and Kroon, D. and Larsson, J. and Nagirnyi, V. and Novikov, D. V. and Pham, V. T. and Pärna, R. and Romet, I. and Saaring, J. and Schostak, I. and Tiirinen, E. and Tõnisoo, A. and Kirm, M.}},
  booktitle    = {{Journal of Physics: Conference Series}},
  language     = {{eng}},
  title        = {{Recent advances in time-resolved luminescence spectroscopy at MAX IV and PETRA III storage rings}},
  url          = {{http://dx.doi.org/10.1088/1742-6596/2380/1/012135}},
  doi          = {{10.1088/1742-6596/2380/1/012135}},
  volume       = {{2380}},
  year         = {{2022}},
}

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Recent advances in time-resolved luminescence spectroscopy at MAX IV and PETRA III storage rings