Vishal Sharma | Ludwig-Maximilians-Universität München (original) (raw)
Greetings! I am a senior undergraduate at the Indian Institute of Technology Delhi, India. I am majoring in Engineering Physics. My areas of interests broadly lie in the fields of Quantum Physics, Quantum Information, Quantum Devices, Medical Technology, Machine Learning Applications and Neuroengineering. Apart from my academics, I like exploring the field of linguistics as my hobby.
Supervisors: V Ravishankar
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Thesis Chapters by Vishal Sharma
The work presented in this thesis was carried out during the one year I spent at Entropica Labs, ... more The work presented in this thesis was carried out during the one year I spent at Entropica Labs, Singapore. I would like to express my gratitude to Dr. Tommaso Demarie and Dr. Ewan Munro for this opportunity and for a wonderful time at Entropica. I would also like to thank Professor Dr. Ulrich Schollwöck for the conversations regarding my results. I also extend my gratitude towards Tobias Haug for the many technical (and a few non-technical) discussions and guidance. It was a great learning experience collaborating on several projects with him. Finally, this word of thanks would be incomplete without mentioning Sneha and Herr Walther Weck who have been a constant support throughout, Professor Dr. Hermann Wolter and Frau Barbara Wolter, and my other friends for contributing to my pleasant experience in Munich. The free access to quantum computers used for this work was provided by IBM Quantum Experience under the contractual tie-up between IBM and Entropica Labs. Apart from this, this work made extensive use of the thorough and versatile python-based software Qiskit.
We study the bulk properties of the quark gluon plasma (QGP), particularly through a formulation ... more We study the bulk properties of the quark gluon plasma (QGP), particularly through a formulation of the transport theory for the QGP, which is inherently non-Abelian in nature. We discuss briefly the theory of Quantum Chromodynamics (QCD), required to describe the dynamics of their interaction. We study the Classical Maxwellian Plasma (Electromagnetic, Abelian) and extend it to QGP, in a semi-classical approach. This approach has been well worked on by various research groups, but our intention is to understand precisely how a collision term emerges. This is to be achieved by incorporating by treating the transport equation for the case of QGP perturbatively and self consistently, along with the Yang Mills equation — to obtain a set of hierarchical equations in the powers of the coupling constant.
Drafts by Vishal Sharma
Template based Course Assignment (Not published in the Journal of Machine Learning)
This report describes in a comprehensive manner the various types of classification algorithms th... more This report describes in a comprehensive manner the various types of classification algorithms that already exist. I will mainly be discussing and comparing in detail the major 7 types of classification algorithms here. The comparison will essentially be based on objective function, assumptions, advantages and draw backs of each.
The work presented in this thesis was carried out during the one year I spent at Entropica Labs, ... more The work presented in this thesis was carried out during the one year I spent at Entropica Labs, Singapore. I would like to express my gratitude to Dr. Tommaso Demarie and Dr. Ewan Munro for this opportunity and for a wonderful time at Entropica. I would also like to thank Professor Dr. Ulrich Schollwöck for the conversations regarding my results. I also extend my gratitude towards Tobias Haug for the many technical (and a few non-technical) discussions and guidance. It was a great learning experience collaborating on several projects with him. Finally, this word of thanks would be incomplete without mentioning Sneha and Herr Walther Weck who have been a constant support throughout, Professor Dr. Hermann Wolter and Frau Barbara Wolter, and my other friends for contributing to my pleasant experience in Munich. The free access to quantum computers used for this work was provided by IBM Quantum Experience under the contractual tie-up between IBM and Entropica Labs. Apart from this, this work made extensive use of the thorough and versatile python-based software Qiskit.
We study the bulk properties of the quark gluon plasma (QGP), particularly through a formulation ... more We study the bulk properties of the quark gluon plasma (QGP), particularly through a formulation of the transport theory for the QGP, which is inherently non-Abelian in nature. We discuss briefly the theory of Quantum Chromodynamics (QCD), required to describe the dynamics of their interaction. We study the Classical Maxwellian Plasma (Electromagnetic, Abelian) and extend it to QGP, in a semi-classical approach. This approach has been well worked on by various research groups, but our intention is to understand precisely how a collision term emerges. This is to be achieved by incorporating by treating the transport equation for the case of QGP perturbatively and self consistently, along with the Yang Mills equation — to obtain a set of hierarchical equations in the powers of the coupling constant.
Template based Course Assignment (Not published in the Journal of Machine Learning)
This report describes in a comprehensive manner the various types of classification algorithms th... more This report describes in a comprehensive manner the various types of classification algorithms that already exist. I will mainly be discussing and comparing in detail the major 7 types of classification algorithms here. The comparison will essentially be based on objective function, assumptions, advantages and draw backs of each.