Yevgeniy Kalantarov Ms Dabr
About Yevgeniy Kalantarov Ms Dabr
Yevgeniy Kalantarov is a Medical Physicist at NYU Langone Health, specializing in beam delivery and quality assurance for imaging systems.
Current Role at NYU Langone Health
Yevgeniy Kalantarov is currently employed as a Medical Physicist at NYU Langone Health in Winthrop, New York, United States. He started his tenure there in 2021. In this role, he applies his specialized expertise in medical physics to enhance patient care and improve the accuracy of medical imaging and radiation therapy.
Previous Experience at Varian Medical Systems
Prior to his current role, Yevgeniy Kalantarov worked for Varian Medical Systems as an Engineer from 2004 to 2021. During his 17 years at Varian, he contributed to the development and maintenance of advanced medical imaging and radiation delivery systems, focusing on beam delivery and quality assurance (QA).
Engineering Roles at General Motors and IBM
Yevgeniy Kalantarov has a diversified engineering background, having worked at General Motors and IBM. He was employed as an Engineer at General Motors from 2002 to 2003 and completed two separate stints at IBM in 2001 and 2002. These roles provided him with valuable experience in practical engineering applications.
Education at Columbia University and University at Buffalo
Yevgeniy Kalantarov holds a Master's degree in Medical Physics from Columbia University, which he completed between 2008 and 2013. Additionally, he earned a Bachelor of Science (BS) in Electrical Engineering from the University at Buffalo, where he studied from 1999 to 2003. His educational background provides a strong foundation for his work in medical imaging and radiation therapy.
Specialization and Technical Proficiency
Yevgeniy Kalantarov specializes in beam delivery and quality assurance (QA) for various imaging systems, including digital detector systems, IX, EX, OBI, MLC, CBCT, and TrueBeam, Halcyon architectures. He is proficient in using Eclipse and precision treatment planning software, which are crucial tools in the field of medical physics.