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Prashanth Raman
(The Institute of Mathematical Sciences, 2019)
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Akhil Antony
(The Institute of Mathematical Sciences, 2023)
Acoustic peaks in the Cosmic Microwave Background (CMB) temperature spectrum as observed by the Planck satellite appear to be smoother than our expectation from the standard model lensing effect. This anomalous effect can ...
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Anirban Karan
(The Institute of Mathematical Sciences, 2019)
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Dhruv Pathak
(The Institute of Mathematical Sciences, 2021)
The timing analysis of radio pulsars gives many interesting results and
is expected to contribute further in many areas of fundamental physics in
the future. In this connection, it is important to understand the external ...
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Subashini, K
(The Institute of Mathematical Sciences, 2011)
MPhil Thesis submitted to Kanchi Mamunivar Centre for PG studies, Puducherry, on INO.
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Kamil, S. M.
(The Institute of Mathematical Sciences, 2011-08-25)
This thesis studies Some problems in the statics and dynamics of nematic liquid crystals. This thesis studies two broad classes of problems, using the GLdG approach. The first class deals with the static properties of the ...
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Turbasu Biswas
(2009-10-27)
Proton decay is used as a guiding principle for the search of a Grand unified theory. As a starting point minimal nonsupersymmetric SU(5) model is taken as it is the simplest possible grand unified model. Then modifications ...
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Pooja Mukherjee
(The Institute of Mathematical Sciences, 2021)
This thesis mainly focus on the perturbative calculations of hadronic cross sections in Quantum Chromodynamics (QCD).
I study the infrared structure of the form factor and inclusive real emission cross section that ...
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Taushif Ahmed
(The Institute of Mathematical Sciences, 2016)
The central part of this thesis deals with the QCD radiative corrections to some important observables associated with the Drell-Yan, scalar and pseudo scalar Higgs boson productions at three loop or N 3 LO order aiming ...
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Ankita Chakrabarti
(The Institute of Mathematical Sciences, 2019)
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Shivani Singh
(The Institute of Mathematical Sciences, 2021)
Quantum walk is a quantum analogue of classical random walk that has been extensively
used for developing quantum algorithms for quantum simulations and quantum computation. The speed-up observed in the spread of probability ...
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Arindam Mallick
(The Institute of Mathematical Sciences, 2018)
Quantum simulation become a necessary step to learn physics about a system when theoretical analysis, direct experimental observation, and numerical investigations in classical computers are difficult. The Dirac particles ...
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Naveen, Surendran
(, 2009-09-08)
The low energy properties of many strongly correlated electronic systems can be described by an effective theory in terms of just spin degrees of freedom. One of the simplest interacting model, Heisenberg model has been ...
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Khan, S. A.
(, 2009-08-17)
This thesis is an elaboration of Jagannathan's new formalism of the quantum theory of charged-particle beam optics with illustrations of applications to several practically important systems. Quantum mechanics of the optics ...
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Prateek Chawla
(The Institute of Mathematical Sciences, 2023)
Quantum walks are the quantum generalization of classical random walks, and form a
powerful yet versatile toolkit for the development of quantum algorithms for quantum
simulation and quantum computing applications. One ...
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Ajjath, A. H.
(The Institute of Mathematical Sciences, 2021)
The thesis comprises a selection of published works and preprints that provides a com-
prehensive picture of higher order computations of physical observables at LHC. A condensed outline of the thesis is as follows.
In ...
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Rusa Mandal
(The Institute of Mathematical Sciences, 2017)
The thesis predominantly deals with the rare decay B->K*ll where the full angular analysis of the final state gives rise to a multitude of observables. We show the most general parametric form of the amplitude in the ...
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Abinash Kumar Nayak
(The Institute of Mathematical Sciences, 2020)
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Raghvendra Singh
(The Institute of Mathematical Sciences, )
In this thesis, we focused on studying how the background structure of spacetime a↵ects
quantum phenomena at micro and macroscopic levels [2, 11]. We also studied the possi-
bility that spacetime might be Euclidean at ...
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Soumyadeep Bhattacharya
(The Institute of Mathematical Sciences, 2016)
Phase transitions accompanied by spontaneous breaking of continuous symmetries have
been studied extensively in condensed matter and high energy physics. In this thesis we
investigate the spontaneous breaking of discrete ...