Velocity and Temperature Evolution of Ultracold Neutral Plasmas with Exponentially Decaying Density Distributions

MacKenzie Warrens; Mohammad Barzegar; Mohammad Barzegar; Mohammad Barzegar

Velocity and Temperature Evolution of Ultracold Neutral Plasmas with Exponentially Decaying Density Distributions

ORAL

Abstract

Ultracold neutral plasmas (UNPs) occupy an exotic low-temperature and low-density regime of plasma physics, and they provide a powerful platform for studying fundamental plasma physics processes such as plasma waves, transport, and expansion into vacuum. Previous UNP experiments have used plasmas with an initial Gaussian density distribution, for which the expansion into vacuum is well understood. Another interesting initial profile is an exponentially decaying density distribution, which is formed by photoionizing atoms in a quadrupole magnetic trap. While exponential plasmas have similar characteristic length and time scales as Gaussian plasmas, and are predominantly in the hydrodynamic regime, the velocity and temperature profiles differ. This talk compares the velocity and temperature evolution of exponential and Gaussian UNPs, and examines the potential for wave breaking and shock waves in exponential UNPs.

April 10, 2021, 11:12 AM – April 10, 2021, 11:24 AM

Authors

MacKenzie Warrens

Rice University
Mohammad Barzegar

Vanderbilt University, Rowan University, California State University (retired), University of North Texas, Michigan Technological University, Texas A&M University, University of Texas at El Paso, Cornell University, Rice University, Cyclotron Institute, Texas A\&M University, College Station, TX 77843, 2020 National PhysTEC Teacher of the Year, Fresno State Physics Department, University of Texas at Arlington, Institute for Quantum Science and Engineering, Department of Physics and Astronomy, Texas A & M University, Centro de Física Aplicada y Tecnología Avanzada, Universidad Nacional Autónoma de México, University of Miami, Texas A&M University–Corpus Christi
Mohammad Barzegar

Vanderbilt University, Rowan University, California State University (retired), University of North Texas, Michigan Technological University, Texas A&M University, University of Texas at El Paso, Cornell University, Rice University, Cyclotron Institute, Texas A\&M University, College Station, TX 77843, 2020 National PhysTEC Teacher of the Year, Fresno State Physics Department, University of Texas at Arlington, Institute for Quantum Science and Engineering, Department of Physics and Astronomy, Texas A & M University, Centro de Física Aplicada y Tecnología Avanzada, Universidad Nacional Autónoma de México, University of Miami, Texas A&M University–Corpus Christi
Mohammad Barzegar

Vanderbilt University, Rowan University, California State University (retired), University of North Texas, Michigan Technological University, Texas A&M University, University of Texas at El Paso, Cornell University, Rice University, Cyclotron Institute, Texas A\&M University, College Station, TX 77843, 2020 National PhysTEC Teacher of the Year, Fresno State Physics Department, University of Texas at Arlington, Institute for Quantum Science and Engineering, Department of Physics and Astronomy, Texas A & M University, Centro de Física Aplicada y Tecnología Avanzada, Universidad Nacional Autónoma de México, University of Miami, Texas A&M University–Corpus Christi