Physics

Physics News Apri-June 2020 Vol 50 No. 2 ISSN:0253-7583

About

Department of Physics has been on the path of enhancing the esteem of this college right from the date of its inception way back in 2010 and during all these years has ameliorated the young minds to attain new strides, thereby contributing its bit in taking the society from darkness to light which is the sole and ultimate purpose of life. The pass outs from this department are serving the society at varying capacities.
Currently, the department runs Undergraduate (UG) Course. Furthermore, it offers General Elective, Open Elective and Skill Courses to the students enrolled in other departments of the College as per Choice Based Credit System (CBCS) scheme presently in vogue. The inclusion of market driven skill courses in the curriculum boosts the confidence level of the students as they get complete hands-on training related to various household electric and electronic gadgets and also enhances the employability chances of the students who receive training in these courses.

Vision

Our vision is to be a leading Physics Department that excels in teaching and Skill. We aim to provide excellent education, encourage innovation, and maintain advanced facilities. We focus on developing our students' skills and engaging with the community and industry. We also support our faculty in using the latest teaching methods. Our goal is to produce skilled physicists who can positively impact society.

Mission

Our mission is to deliver high-quality physics education and inspire a love for learning. We prepare students for successful careers and further studies with innovative research and advanced facilities. We focus on student growth and community engagement. Continuous faculty development ensures excellent teaching.

G H BHAT ET AL PHYSICAL REVIEW LETTERS 136, 072501 (2026)

The identification of the first multiphonon γ-vibrational bands in an odd-odd neutron-rich nucleus of the
nuclear chart is presented. These high-spin structures of hard to access 104
41 Nb63, produced in fission, were
studied by combining a spectrometer with isotopic resolution coupled to a γ-ray tracking array and
independently from high-fold γ coincidence measurements. Triaxial projected shell model calculations for
the high-spin states are in good agreement with the measured observables for the yrast, one-phonon, and
two-phonon γ bands. The possibility of an oblate shape of an isomeric state and coexistence of triaxial and
oblate configurations is investigated from the decay of the 141 keV isomer. The present Letter illustrates the
robustness of vibration excitations in the presence of an odd valence proton and neutron as well as the
possibly coexisting shapes beyond the N¼ 60 transitional region.