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P. Schreiner

ORCID: 0009-0001-8037-4242
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A5030629918
Research Areas
  • Neutrino Physics Research
  • Particle Detector Development and Performance
  • Particle physics theoretical and experimental studies
  • Dark Matter and Cosmic Phenomena
  • Astrophysics and Cosmic Phenomena
  • Atomic and Subatomic Physics Research
  • Spectroscopy and Laser Applications
  • Advanced Thermodynamic Systems and Engines
  • Quantum, superfluid, helium dynamics
  • Superconducting and THz Device Technology
  • Radiation Detection and Scintillator Technologies
  • CCD and CMOS Imaging Sensors
  • Radio Astronomy Observations and Technology

Institute of High Energy Physics
 2024

TU Wien
 2024

 Neutrino flux sensitivity to the next galactic core-collapse supernova in COSINUS
OPENALEX - Publications 
G. Angloher R Mukund Mariano Cababié I. Colantoni I. Dafinei and 37 more A. L. De Santis N. Di Marco L. Einfalt F. Ferella F. Ferroni S. Fichtinger A. Filipponi T. Frank M. Friedl Z. W. Ge Matti Heikinheimo Martin Hughes Katri Huitu Moritz Kellermann R. Maji M. Mancuso L. Pagnanini F. Petricca S. Pirro F. Pröbst G. Profeta Andrei Puiu F. Reindl K. Schäffner J. Schieck P. Schreiner C. Schwertner K. Shera M. Stahlberg A. Stendahl M. Stukel Cesare Tresca F. Wagner Shijing Yue V. Zema Y. Zhu G. Pagliaroli

Abstract While neutrinos are often treated as a background for many dark matter experiments, these particles offer new avenue physics: the detection of core-collapse supernovae. Supernovae extremely energetic, violent and complex events that mark death massive stars. During their collapse stars emit large number in short burst. These carry 99% emitted energy which makes fundamental understanding This paper illustrates how COSINUS (Cryogenic Observatory SIgnatures seen Next-generation...

10.1088/1475-7516/2025/03/037 article EN cc-by Journal of Cosmology and Astroparticle Physics 2025-03-01
 Water Cherenkov muon veto for the COSINUS experiment: design and simulation optimization
OPENALEX - Publications 
G. Angloher R Mukund Mariano Cababié I. Dafinei N. Di Marco and 34 more L. Einfalt F. Ferroni S. Fichtinger A. Filipponi M. Friedl A. Fuss Z. W. Ge Matti Heikinheimo Martin Hughes Katri Huitu Moritz Kellermann R. Maji M. Mancuso L. Pagnanini F. Petricca S. Pirro F. Pröbst G. Profeta A. Puiu F. Reindl K. Schäeffner J. Schieck D. Schmiedmayer P. Schreiner C. Schwertner K. Shera M. Stahlberg A. Stendhal M. Stukel Cesare Tresca F. Wagner Shijing Yue V. Zema Y. Zhu

Abstract COSINUS is a dark matter (DM) direct search experiment that uses sodium iodide (NaI) crystals as cryogenic calorimeters. Thanks to the low nuclear recoil energy threshold and event-by-event discrimination capability, will address long-standing DM claim made by DAMA/LIBRA collaboration. The currently under construction at Laboratori Nazionali del Gran Sasso, Italy, employs large cylindrical water tank passive shield meet required background rate. However, muon-induced neutrons can...

10.1140/epjc/s10052-024-12923-2 article EN cc-by The European Physical Journal C 2024-05-31
 Water Cherenkov muon veto for the COSINUS experiment: design and simulation optimization
OPENALEX - Publications 
G. Angloher R Mukund Mariano Cababié I. Dafinei N. Di Marco and 34 more L. Einfalt F. Ferroni S. Fichtinger A. Filipponi T. Frank M. Friedl Z. W. Ge Matti Heikinheimo Martin Hughes Katri Huitu Moritz Kellermann R. Maji M. Mancuso L. Pagnanini F. Petricca S. Pirro F. Pröbst G. Profeta A. Puiu F. Reindl K. Schäffner J. Schieck D. Schmiedmayer P. Schreiner C. Schwertner K. Shera M. Stahlberg A. Stendhal M. Stukel Cesare Tresca F. Wagner Shijing Yue V. Zema Y. Zhu

COSINUS is a dark matter (DM) direct search experiment that uses sodium iodide (NaI) crystals as cryogenic calorimeters. Thanks to the low nuclear recoil energy threshold and event-by-event discrimination capability, will address long-standing DM claim made by DAMA/LIBRA collaboration. The currently under construction at Laboratori Nazionali del Gran Sasso, Italy, employs large cylindrical water tank passive shield meet required background rate. However, muon-induced neutrons can mimic...

10.1140/epjc/s10052-024-12923-2 preprint EN arXiv (Cornell University) 2024-04-25
 A Vibration Decoupling System for TES Operation in the COSINUS Dry Dilution Refrigerator
OPENALEX - Publications 
Moritz Kellermann G. Angloher M. R. Bharadawj Mariano Cababié I. Dafinei and 33 more N. Di Marco L. Einfalt F. Ferroni S. Fichtinger A. Filipponi T. Frank M. Friedl Z. W. Ge Matti Heikinheimo Martin Hughes Katri Huitu R. Maji M. Mancuso L. Pagnanini F. Petricca S. Pirro F. Pröbst G. Profeta A. Puiu F. Reindl K. Schäffner J. Schieck D. Schmiedmayer P. Schreiner C. Schwertner M. Stahlberg A. Stendahl M. Stukel Cesare Tresca F. Wagner Shijing Yue V. Zema Yuqing Zhu

10.1007/s10909-024-03206-x article EN cc-by Journal of Low Temperature Physics 2024-09-03
 Description and Performance of the COSINUS remoTES Design
OPENALEX - Publications 
V. Zema K. Shera G. Angloher R Mukund Mariano Cababié and 34 more I. Dafinei N. Di Marco L. Einfalt F. Ferroni S. Fichtinger A. Filipponi T. Frank M. Friedl Z. W. Ge Matti Heikinheimo Martin Hughes Katri Huitu Moritz Kellermann R. Maji M. Mancuso L. Pagnanini F. Petricca S. Pirro F. Pröbst G. Profeta A. Puiu F. Reindl K. Schäffner J. Schieck D. Schmiedmayer P. Schreiner C. Schwertner M. Stahlberg A. Stendahl M. Stukel Cesare Tresca F. Wagner Shijing Yue Y. Zhu

Abstract COSINUS is a new cryogenic observatory for rare event searches located in the Laboratori Nazionali del Gran Sasso Italy. COSINUS’s first goal to clarify whether signal detected by DAMA/LIBRA experiment originates from dark matter particle interactions or has different nature. To this aim, sodium iodide (NaI) scintillating calorimeters read out transition edge sensors (TESs) are developed. preserve NaI crystal TES fabrication process, implemented novel design, remoTES, where...

10.1007/s10909-024-03201-2 article EN cc-by Journal of Low Temperature Physics 2024-08-31
 COSINUS:TES-instrumented NaI Crystals for Direct Dark Matter Search
OPENALEX - Publications 
M. Stahlberg G. Angloher R Mukund Mariano Cababié I. Dafinei and 35 more N. Di Marco L. Einfalt F. Ferroni S. Fichtinger A. Filipponi T. Frank M. Friedl A. Fuss Z. W. Ge Matti Heikinheimo Martin Hughes Katri Huitu Moritz Kellermann R. Maji M. Mancuso L. Pagnanini F. Petricca S. Pirro F. Pröbst G. Profeta A. Puiu F. Reindl K. Schäffner J. Schieck D. Schmiedmayer P. Schreiner C. Schwertner K. Shera A. Stendahl M. Stukel Cesare Tresca F. Wagner Shijing Yue V. Zema Y. Zhu

10.1007/s10909-024-03185-z article EN cc-by Journal of Low Temperature Physics 2024-09-12
 Neutrino flux sensitivity to the next galactic core-collapse supernova in COSINUS
OPENALEX - Publications 
G. Angloher R Mukund Mariano Cababié I. Colantoni I. Dafinei and 37 more A. L. De Santis N. Di Marco L. Einfalt F. Ferella F. Ferroni S. Fichtinger A. Filipponi T. Frank M. Friedl Zhishuai Ge Matti Heikinheimo Martin Hughes Katri Huitu Moritz Kellermann R. Maji M. Mancuso L. Pagnanini F. Petricca S. Pirro F. Pröbst G. Profeta A. Puiu F. Reindl K. Schäeffner J. Schieck P. Schreiner C. Schwertner K. Shera M. Stahlberg A. Stendhal M. Stukel Cesare Tresca F. Wagner S. Yue V. Zema Yue Zhu G. Pagliaroli

While neutrinos are often treated as a background for many dark matter experiments, these particles offer new avenue physics: the detection of core-collapse supernovae. Supernovae extremely energetic, violent and complex events that mark death massive stars. During their collapse stars emit large number in short burst. These carry 99\% emitted energy which makes fundamental understanding This paper illustrates how COSINUS (Cryogenic Observatory SIgnatures seen Next-generation Underground...

10.48550/arxiv.2409.09109 preprint EN arXiv (Cornell University) 2024-09-13
 Reactionp+p→γ+ANYTHINGat 205 GeV and its Implications forπ0Production.
OPENALEX - Publications 
G. Charlton Y. Cho M. Derrick R. Engelmann Tiffany Fields and 14 more L. Hyman K. Jaeger U. Mehtani B. Musgrave Y. Oren D. Rhines P. Schreiner H. Yuta L. Voyvodic R. Walker J. Whitmore H. B. Crawley Z. Ming R. G. Glasser

Report No. .BOLD consists of wire spark chambers and scintilla- tors distributed in four quadrants.Each quadrant has an azimuthal coverage 66' subtends scattering angles from 45 to 135 .

10.1103/physrevlett.30.1192 article EN Physical Review Letters 1973-06-04
 Study of High-Energy Antineutrino-Proton Interactions
OPENALEX - Publications 
M. Derrick T. Dombeck L. Hyman K. Jaeger D. Lissauer and 10 more R. J. Miller B. Musgrave J. J. Phelan P. Schreiner R. Singer S. J. Barish A. Engler G. Keyes R. W. Kraemer J. Schlereth

10.1103/physrevlett.36.1410 article EN Physical Review Letters 1976-06-07
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