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A. Grassellino

Identifiers

  • name variant A. Grassellino 0.60 · backfill

Papers (24)

  1. Experimental Observation of Short-Range Magnetic Correlations in Amorphous Nb$_2$O$_5$ and Ta$_2$O$_5$ Thin Films cond-mat.other · 2025 · author #13
  2. Future Circular Collider Feasibility Study Report: Volume 1, Physics, Experiments, Detectors hep-ex · 2025 · author #568
  3. Low RF power plasma ignition and detection for in-situ cleaning of 1.3 GHz 9-cell cavities physics.acc-ph · 2019 · author #4
  4. Achievement of Ultra-High Quality Factor in Prototype Cryomodule for LCLS-II physics.acc-ph · 2018 · author #2
  5. The Role of Magnetic Flux Expulsion to Reach Q0>3x10^10 in SRF Cryomodules physics.acc-ph · 2018 · author #4
  6. Accelerating fields up to 49 MV/m in TESLA-shape superconducting RF niobium cavities via 75C vacuum bake physics.acc-ph · 2018 · author #1
  7. Insight into bulk niobium superconducting RF cavities performances by tunneling spectroscopy cond-mat.supr-con · 2018 · author #3
  8. Commissioning And First Results From The Fermilab Cryomodule Test Stand physics.acc-ph · 2018 · author #11
  9. The Effect of Mechanical Cold Work on the Magnetic Flux Expulsion of Niobium physics.acc-ph · 2018 · author #4
  10. Advancement in the understanding of the field and frequency dependent microwave surface resistance of niobium physics.acc-ph · 2017 · author #5
  11. Unprecedented Quality Factors at Accelerating Gradients up to 45 MV/m in Niobium Superconducting Resonators via Low Temperature Nitrogen Infusion physics.acc-ph · 2017 · author #1
  12. Effect of interstitial impurities on the field dependent microwave surface resistance of niobium physics.acc-ph · 2016 · author #2
  13. Quench-Induced Degradation of the Quality Factor in Superconducting Resonators physics.acc-ph · 2016 · author #4
  14. Efficient expulsion of magnetic flux in superconducting RF cavities for high $Q_0$ applications physics.acc-ph · 2015 · author #2
  15. Magnetic Flux Dynamics in Horizontally Cooled Superconducting Cavities physics.acc-ph · 2015 · author #3
  16. Ultra-high quality factors in superconducting niobium cavities in ambient magnetic fields up to 190 mG physics.acc-ph · 2014 · author #2
  17. Comment on the "Decrease of the surface resistance in superconducting niobium resonator cavities by the microwave field" physics.acc-ph · 2014 · author #2
  18. Dependence of the residual surface resistance of superconducting RF cavities on the cooling dynamics around $T_\mathrm{c}$ physics.acc-ph · 2014 · author #2
  19. Strong Meissner screening change in superconducting radio frequency cavities due to mild baking cond-mat.supr-con · 2013 · author #2
  20. Nitrogen and argon doping of niobium for superconducting radio frequency cavities: a pathway to highly efficient accelerating structures physics.acc-ph · 2013 · author #1
  21. Fermilab experience of post-annealing losses in SRF niobium cavities due to furnace contamination and the ways to its mitigation: a pathway to processing simplification and quality factor improvement physics.acc-ph · 2013 · author #1
  22. Dependence of the microwave surface resistance of superconducting niobium on the magnitude of the rf field cond-mat.supr-con · 2013 · author #2
  23. Muon spin rotation studies of niobium for superconducting RF applications cond-mat.supr-con · 2013 · author #1
  24. Proximity breakdown of hydrides in superconducting niobium cavities cond-mat.supr-con · 2012 · author #4

Mentions

  • 2505.00272 #568 · arxiv_oai · confidence 0.70 A. Grassellino

Frequent Coauthors