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EXCESS26@IDM

30 May 2026
Europe/Madrid timezone

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Contribution List

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  1. 5. Introduction
    30/05/2026, 09:00
  2. 6. CRESST
    Marco Maria Zanirato (Max Planck Society (DE))
    30/05/2026, 09:15
  3. 7. NUCLEUS
    30/05/2026, 09:40
  4. 8. CRAB
    Andreas Erhart
    30/05/2026, 10:05
  5. 9. HVeV@CUTE
    Kyle Kennard
    30/05/2026, 11:00
  6. 10. TESSERACT / SPICE
    Matt Pyle (University of California Berkeley)
    30/05/2026, 11:25
  7. 11. RICOCHET
    Alex Juillard (IP2I/IN2P3)
    30/05/2026, 11:50
  8. 12. Nordlund / Heikinheimo
    FEDERICO LEDDA
    30/05/2026, 12:15
  9. 13. BullKid
    Matteo Folcarelli
    30/05/2026, 13:40
  10. 14. SQUAT
    Aviv Simchony
    30/05/2026, 14:05
  11. 15. Delft quantum computing
    Ruggero Di Carlo
    30/05/2026, 14:30
  12. 16. Quantum parity detectors
    Karthik Ramanathan
    30/05/2026, 14:55
  13. 17. T-Rex Dark Matter & Dark Quantum
    30/05/2026, 15:50
  14. 18. Electronegative impurities as a cause of the low-energy excess in NEWS-G's dark matter detector
    Jon Clarke
    30/05/2026, 16:15
  15. 19. XENON
    Dr Peter Sorensen (LBL / Berkeley Lab)
    30/05/2026, 16:40
  16. 3. First operation of a COSINUS silicon light detector in the new LNGS setup
    Clemens Johannes Dittmar (Max Planck Society (DE))
    Poster

    We present the first measurements of the COSINUS silicon light detector instrumented with a transition edge sensor (TES) in the new underground setup at LNGS. The detector is operated as a cryogenic light detector for a NaI target crystal, where the measurement of scintillation light in coincidence with the phonon signal enables particle discrimination and thus allows COSINUS to test the...

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  17. 2. Identifying Low-Energy Excess in Graphene Josephson Junction-based Detectors
    Seongeun Jeon (Quantum Information Science, Pohang University of Science and Technology, Pohang 37673, Republic of Korea)
    Poster

    Low-energy excess (LEE) is a common phenomenon in various solid-state detectors, acting as a significant limiting factor for rare event searches [1]. These anomalous signals create an unwanted noise floor that masks weak interactions, complicating the distinction between true dark matter signals and its backgrounds.

    Graphene Josephson Junction (GJJ) based detectors have recently emerged...

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  18. 4. Low-Stress Mounting of Cryogenic Light Detectors for NaI Scintillation Measurements
    Lutz Johann Ziegele (Max Planck Society (DE))
    Poster

    In collaboration between the Cryogenic Observatory for SIgnatures seen in Next-generation Underground Searches (COSINUS)—a dual-channel dark-matter direct-detection experiment employing sodium iodide (NaI) as target material—and the Observatory for Neutrino and Dark Matter Electron Scattering (OνDES) project, we developed a cryogenic scintillating calorimeter that enables...

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