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  1. Sean Burchesky. Engineered Collisions, Molecular Qubits, and Laser Cooling of Asymmetric Top Molecules. Harvard University, 2023.

  2. Benjamin Augenbraun. Methods for Direct Laser Cooling of Polyatomic Molecules. Harvard University, 2021.

  3. Maryam Hiradfar. A Fast and Dense Magneto-Optical Trap of Potassium Atoms Loaded From a Cold Buffer-Gas Beam. Undergraduate Thesis, Harvard University, 2021.

  4. Louis Baum. Laser cooling and 1D magneto-optical trapping of calcium monohydroxide. Harvard University, 2020.

  5. Loïc Anderegg. Ultracold molecules in optical arrays: from laser cooling to molecular collisions. Harvard University, 2019.

  6. Zack Lasner (ACME, DeMille Group). Order-of-magnitude-tighter bound on the electron electric dipole moment. Yale University, 2018.

  7. Cris Panda (ACME, Gabrielse Group). Order of magnitude improved limit on the electric dipole moment of the electron. Harvard University, 2018.

  8. Ivan Kozyryev. Laser Cooling and Inelastic Collisions of the Polyatomic Radical SrOH. Harvard University, 2017.

  9. Elizabeth Petrik West (ACME, Doyle Group). A Thermochemical Cryogenic Buffer Gas Beam Source of ThO for Measuring the Electric Dipole Moment of the Electron. Harvard University, ACME Collaboration, 2017. Supplementary beam pulse videos

  10. Vitaly Andreev (ACME, Gabrielse Group). Polarimetry on the Advanced Cold Molecule Electron Electric Dipole Moment Experiment. Master Thesis, Technische Universitaet Muenchen, Gabrielse GroupACME Collaboration, 2016.

  11. Brendon O'Leary (ACME, DeMille Group). In search of the electron's electric dipole moment in thorium monoxide: an improved upper limit, systematic error models, and apparatus upgrades. Yale University, 2016.

  12. Garrett Drayna. Novel Applications of Buffer-gas Cooling to Cold Atoms, Diatomic Molecules, and Large Molecules. Harvard University, 2016.

  13. Eunmi Chae. Laser Slowing of CaF Molecules and Progress towards a Dual-MOT for Li and CaF. Harvard University, 2015.

  14. Julia Piskorski. Cooling, Collisions and non-Sticking of Polyatomic Molecules in a Cryogenic Buffer Gas Cell. Harvard University, 2014.

  15. Paul Hess (ACME, Gabrielse Group). Improving the Limit on the Electron EDM. Harvard University, Gabrielse GroupACME Collaboration, 2014

  16. Ben Spaun (ACME, Gabrielse Group). A Ten-Fold Improvement to the Limit of the Electron Electric Dipole Moment. Harvard University, Gabrielse GroupACME Collaboration, 2014

  17. Nick Hutzler (ACME, Doyle Group). A New Limit on the Electron Electric Dipole Moment. Harvard University, ACME Collaboration, 2014

  18. Y. Au. Inelastic Collisions of Atomic Thorium and Molecular Thorium Monoxide with Cold Helium-3. Harvard University, 2014

  19. Hsin-I Lu. Magnetic trapping of molecules via optical loading and magnetic slowing. Harvard University, 2013.

  20. Colin Connolly. Inelastic collisions of atomic antimony, aluminum, erbium and thulium below 1 K. Harvard University, 2012.

  21. Yulia Gurevich (ACME, Gabrielse Group). Preliminary Measurements for an Electron EDM Experiment in ThO. Harvard University, Gabrielse GroupACME Collaboration, 2011

  22. Amar Vutha (ACME, DeMille Group). A search for the electric dipole moment of the electron using thorium monoxide. Yale University, DeMille GroupACME Collaboration, 2011

  23. David Patterson. Buffer Gas Cooled Beams and Cold Molecular Collisions. Harvard University, 2010.

  24. Matthew Hummon. Magnetic trapping of atomic nitrogen and cotrapping of NH. Harvard University, 2010.

  25. Stephen Charles Doret. A Buffer-gas Cooled Bose Einstein Condensate. Harvard University, 2009

  26. Edem Tsikata. Magnetic Trapping and Thermal Isolation of NH Molecules Using the Buffer Gas Technique. Harvard University, 2009

  27. Bonna Newman.Trapped Atom Collisions and Evaporative Cooling of non-S State Atoms. MIT, 2008. Errata.

  28. Nathaniel Brahms. Trapping of 1 mu B atoms using buffer gas loading. Harvard University, 2008. Errata.

  29. Cort Johnson. Zeeman Relaxation of Cold Iron and Nickel in Collisions with 3He. MIT, 2008. Errata.

  30. Wes Campbell. Magnetic Trapping of Imidogen Molecules. Harvard University, 2008.

  31. Stephen Maxwell. Buffer gas cooled atoms and molecules: production, collisional studies, and applications. Harvard University, 2007.

  32. Scott Nguyen. Buffer Gas Loading and Evaporative Cooling in the Multi-Partial-Wave Regime. Harvard University, 2006.

  33. Liang Yang. Towards Precision Measurement of the Neutron Lifetime using Magnetically Trapped Neutrons. Harvard University, 2006.

  34. Cindy Hancox. Magnetic Trapping of transition-metal and rare-earth atoms using buffer gas loading. Harvard University, 2005.

  35. Dimitri Egorov. Buffer-Gas Cooling of Diatomic Molecules. Harvard University, 2004.

  36. Bob Michniak. Enhanced Buffer Gas Loading:Cooling and Trapping of Atoms with Low Effective Magnetic Moments. Harvard University, 2004.

  37. Sergei N. Dzhosyuk. Magnetic Trapping of Neutrons for Measurement of the Neutron Lifetime. Harvard University, 2004.

  38. Robert deCarvalho. Inelastic Scattering of Magnetically Trapped Atomic Chromium. Harvard University, 2003.

  39. Jonathan David Weinstein. Magnetic Trapping of Atomic Chromium and Molecular Calcium Monohydride. Harvard University, 2002.

  40. Daniel Nicholas McKinsey. Detection of Magnetically Trapped Neutrons: Liquid Helium As a Scintillator. Harvard University, 2002.

  41. Carlo Egon Heinrich Mattoni. Magnetic Trapping of Ultracold Neutrons Produced Using a Monochromatic Cold Neutron Beam. Harvard University, 2002.

  42. Clinton Reed Brome. Magnetic Trapping of Ultracold Neutrons. Harvard University, 2000.

  43. Jinha Kim. Buffer-gas Loading and Magnetic Trapping of Atomic Europium. Harvard University, 1997.

  44. Klaus Habicht. Szintillationen in flüssigem Helium - ein Detektor für ultrakalte Neutronen. Technischen Universität Berlin, 1998.

  45. Irfan Ahmed Siddiqi. Absolute Quantum Efficiency Measurements of a Prototype Ultra-Cold Neutron in Liquid Helium Detection System. Harvard University, 1997.

  46. Hayn Park. Thermal Neutron Detection Using Boron-10 and Sodium Salicylate Doped Epoxy Films. Harvard University, 1996.

  47. Carlo Egon Heinrich Mattoni. The Precision Measurement of the Neutron Lifetime Using Magnetically Trapped Neutrons: Marginally Trapped Neutrons and Fluorescent Time Constants. Harvard University, 1995.