NISER professor receives Infosys Award 2021 for Physics – Times of India

Bhubaneswar: Distinguished physicist Bedangdas Mohanty, a professor at the National Institute of Science Education and Research (NISER) Bhubaneswar and a member of the CERN’s Large Hadron Collider (LHC) Examiner, has been awarded the 2021 Merit in Physics.

The awards were announced on Thursday evening. The jury selected Mohanty’s name from a team of scientists working at the world’s best institutes. The award includes a gold medal, a certificate and USD 100,000 (or its equivalent) and is awarded in six categories – engineering and computer science, humanities, life sciences, mathematics, physics and social sciences.

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“I am just happy to be honored. I have worked mainly in large collaborations with institutes and countries. The task would not have been possible without my partner in STAR and LHC exams, ”Mohanty said in his speech.

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Earlier, Mohanty was elected a Fellow of the American Physical Society for 2020. He received this honor for his outstanding contribution to the exploration of the QCD critical point in both quantum chromodynamics phase diagrams and high-energy atomic collisions. Relative Heavy Ion Collider and Large Hadron Collider (LHC).

He has been selected as one of the three Academy Fellows of India. He received the highest award for science in India in 2015 – the Bhatnagar Award for Peace. He is also the recipient of the Jesse Bose Fellow in 2016. In addition to these, he is the recipient of many awards in the field of physical sciences.

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Mohanty contributed to the establishment of the quark-hadron transition and made the first direct comparison between experimental high-energy heavy-ion collision data and QCD calculations. The Physics World ranked it among the top 10 of 2011.

His work on the Star test has led to an exciting possibility of the existence of a critical point in the phase diagram of QCD. Critical points in a test of this work have been made observable for exploration. It is considered a groundbreaking work in the field.

He has led the Beam Energy Scan Physics program to publish important scientific research papers in the Physical Review Letter on CQD Critical Points. He played a key role in such a program in Quark Matter 2009. He then demonstrated the readiness of the STAR detector and collider to explore the proposed QCD critical point and explore the QCD phase diagram in a relatively heavy ion collider (RHIC).

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He made significant contributions to the discovery of quark gluon plasma (QGP) in the laboratory. This state of matter existed in the first few microseconds of the old universe. In this type of substance, quarks and gluons move freely in volumes much larger than the unselected and nucleonic scales. To achieve this in the laboratory, a sequential temperature of 1012 Kelvin must be created.

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