Adhikari Govinda, 1st
About Adhikari Govinda, 1st
Adhikari Govinda is a postdoctoral researcher with expertise in neutrino physics, particularly in neutrino-less double-beta decay. He has held positions at the National Institute of Standards and Technology, Sejong University, Yale University, and UC San Diego.
Current Position at Yale University
Adhikari Govinda currently holds the position of Postdoctoral Researcher at Yale University. He has been in this role since 2020, contributing to ongoing research initiatives in the field of neutrino physics. His work at Yale focuses on advancing the understanding of fundamental physics through experimental and theoretical approaches.
Current Role at UC San Diego
In addition to his position at Yale University, Adhikari Govinda also serves as a Postdoctoral Researcher at UC San Diego. He has been part of this institution since 2020, where he engages in research related to neutrino physics. His dual roles allow him to collaborate with a diverse range of researchers and projects in the field.
Previous Experience at Sejong University
Before his current roles, Adhikari Govinda worked as a Research Assistant at Sejong University from 2014 to 2020. During his six years in this position, he contributed to various research projects in physics, enhancing his expertise in the field while based in Gangnam-gu, Seoul, Korea.
Experience at National Institute of Standards and Technology (NIST)
Adhikari Govinda gained valuable experience as a Physics Instructor at the National Institute of Standards and Technology (NIST) from 2012 to 2014. His two-year tenure in Kavre involved teaching and mentoring students, which helped him develop skills in education and communication within the scientific community.
Expertise in Neutrino Physics
Adhikari Govinda possesses specialized knowledge in neutrino physics, with a particular focus on neutrino-less double-beta decay research. His expertise contributes to significant collaborations, such as the nEXO collaboration, aimed at exploring new physics phenomena through advanced experimental techniques.