PhD
Some results of mathematical logic on random structures - By Dr Moumanti PodderNYU-ECNU Institute of Mathematical Sciences, New York University, Shanghai
The talk gives a broad overview of various mathematical models like random graphs $G(n, p(n))$ and random rooted trees, including the rooted Galton-Watson (GW) trees.
Gate-Tunable Flatbands in Graphene Moiré Superlattices - By Dr Bheema Linagm Chittari, University of Seoul, Korea
The lecture elaborates on various aspects of Gate-Tunable Flatbands in Graphene Moiré Superlattices.
New physics with nu's - By Dr. Sushant Raut,IBS Daejeon, South Korea
The aim of talk is to discuss the possibility of probing 'Beyond Standard Model' physics with a muDAR setup. Oscillations of low energy neutrinos from a muon decay-at-rest (muDAR) source have been proposed as a means to measure leptonic CP violation.
Dark Matter & Gravitational Wave Detection - By Dr Surjeet Rajendran, John Hopkins University, USA
The lecture elaborates on various aspects of dark matter that could generate powerful enough gravitational waves for equipment like LIGO for detection.
Traffic Control: How cells calibrate motor activity during cell wall morphogenesis - By Dr Anindya Ganguly, Center for Membrane and Cell Physiology Molecular Physiology and Biological Physics, University of Virginia
The lecture elaborates signal transduction mechanism during cell communication.
Surface topological order - uniting `integer' and `fractional' topological states - By Ashvin Vishwanath, Harvard University
This lecture series is part of the program Novel phases of quantum matter. The lecture aims to enlighten the audience regarding Quantum entanglement and many proposed quantum technologies.
Topology, correlations and superconductivity in magic angle graphene - By Ashvin Vishwanath, Harvard University
This lecture series is part of the program Novel phases of quantum matter. The lecture aims to enlighten the audience regarding Quantum entanglement and many proposed quantum technologies.
Entanglement and Topology in Quantum Solids - By Ashvin Vishwanath, Harvard University
This lecture series is part of the program Novel phases of quantum matter. The lecture aims to enlighten the audience regarding Quantum entanglement and many proposed quantum technologies.
Wind Loads and Effects on Structures
The aim of this course to provide information about Wind engineering, Background of basic and design wind speeds given in IS 875, Structural dynamics, Bluff-body aerodynamics, Dynamic effects of wind on buildings and structures etc.
Environmental Impact Assessment
The proposed training program on EIA is broadly intended to provide perspective, insights and knowledge required for effective and efficient management of environment. The specific aim of the training programme is to enhance the capacities of the stakeholders, viz. EIA Professionals, Regulators, Managers, Consultants, NGOs, Students, etc.
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