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Datta, Tuhin
- (LSFAO) Surgery of Complex BIS Manifold:Origin, Partition Function and Green Function of Ultra Energetic BIS-BOSONIC World Sheet
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Authors
Affiliations
1 Department of Physics, Ramjas College, University of Delhi, University Enclave, Delhi-110007, IN
1 Department of Physics, Ramjas College, University of Delhi, University Enclave, Delhi-110007, IN
Source
Invertis Journals of Renewable Energy, Vol 6, No 3 (2016), Pagination: 166-171Abstract
The chaotic universe often exhibits its rusty texture while undergoing through the non-equilibrium stages due to so many unknown causes. When the random and brutal incidents including annihilation of living organism occur in the globe, the entire integrated system breaks and the phenomena is so called BIS. The severe consequence is the origin of ultra energetic BIS - BOSONIC world sheet. The fields generated due to intense chaotic processes lead to BIS strings and superstrings with which our earth is interlinked with the other galaxies. At the time of breakdown of integrated system (BIS) the bosonic strings and superstrings are transformed into BISBOSONIC strings and BIS-BOSONIC superstrings. Hence affect the universal gravitational system leading to a drastic change in the surrounding. Mathematically we have introduced an operator, (LSFAO) which plays a major role in bringing about sudden changes in the world sheet. Out of bosonic and fermionic world sheets, we here shall consider the first one in order to explain the BIS-BOSONIC theory. In our present paper we have presumed the configuration of the non-equilibrium bosonic manifold of the universe and have denoted the same by Mn(n > 3).Keywords
Living State Forced Annihilation Operator (LSFAO), Breakdown of Integrated System (BIS), BIS-BOSONIC World Sheet, Effective Action, Green Function & Partition Function.- Proposed Monte Carlo Method to Simulate the Energy Distribution of the Chaotic Nanosystems undergoing Random BIS Processes in the Environment
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Authors
Affiliations
1 Department of Applied Sciences, Maharaja Surajmal Institute of Technology, Guru Gobind Singh Indraprastha University, Delhi, IN
2 Department of Physics, Ramjas College, North Campus, University of Delhi, Delhi, IN
3 Department of Physics & Astrophysics, University of Delhi, Delhi, IN
4 Muslim Inter College, Asara (Baghpat), IN
1 Department of Applied Sciences, Maharaja Surajmal Institute of Technology, Guru Gobind Singh Indraprastha University, Delhi, IN
2 Department of Physics, Ramjas College, North Campus, University of Delhi, Delhi, IN
3 Department of Physics & Astrophysics, University of Delhi, Delhi, IN
4 Muslim Inter College, Asara (Baghpat), IN
Source
Invertis Journals of Renewable Energy, Vol 6, No 1 (2016), Pagination: 18-24Abstract
BIS processes follow linear as well as non linear dynamics. Under extreme chaotic condition a certain BIS process moves towards far from equilibrium state.The BIS energy is distributed in the form of quanta among the bionanoparticles prevailing within the chaotic objects. In order to visualize the pattern of this energy distribution we hired the method suggested by Monte Carlo to comprehend the matter in a better way.Keywords
BIS Processes, Monte Carlo Method, Quantum Bionanostructures, Far-From Equilibrium States.- Calculation of Boltzman-Shannon Entropy to Study the Energetic Behaviour of the Chaotic Nociceptons in Four Dimensional BIS Space Using Ricci Flow Equations
Abstract Views :243 |
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Authors
Affiliations
1 Department of Applied Sciences, Maharaja Surajmal Institute of Technology, Guru Gobind Singh Indraprastha University, Delhi, IN
2 Department of Physics, Ramjas College, North Campus, University of Delhi, Delhi, IN
3 Department of Physics & Astrophysics, University of Delhi, Delhi, IN
1 Department of Applied Sciences, Maharaja Surajmal Institute of Technology, Guru Gobind Singh Indraprastha University, Delhi, IN
2 Department of Physics, Ramjas College, North Campus, University of Delhi, Delhi, IN
3 Department of Physics & Astrophysics, University of Delhi, Delhi, IN
Source
Invertis Journals of Renewable Energy, Vol 6, No 1 (2016), Pagination: 25-30Abstract
Energized nociceptons are the particles associated with the quanta of BIS mechanism. The Ricci flow was introduced by Hamilton. It plays an important role in the proof of the Poincare conjecture. The behavior of a Nocicepton is comparable with that of a quantum wormhole in space-time foam. Suffice it can be described as a Ricci flow. Enhancement of entropy makes a system disordered. Hence enhances the energy of the BIS system along with the same of the surrounding galactic objects. In our present paper, the evolution of chaotic geometries under Ricci flow is studied. Using the properties of a quantum wormhole whose throats either pinch off or evolve to a monotonically growing state, we have calculate Boltzman-Shannon entropy to study the chaotic behavior of the nociceptons in four dimensional BIS space.Keywords
Boltzman-Shannon Entropy, Chaotic Nociceptons, BIS Space, Ricd Flow Equations.- Explanation of BIS Energy and BIS Entropy Fluctuation in Terms of Ricci Flow, Quantum Stochastic Theory and Far-From Equilibrium Non-Linear Statistical Mechanics With Special Reference to Acoustic Anisotropy
Abstract Views :143 |
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Authors
Affiliations
1 Department of Physics, Ramjas College, North Campus, University of Delhi, Delhi-110007, IN
1 Department of Physics, Ramjas College, North Campus, University of Delhi, Delhi-110007, IN
Source
Invertis Journals of Renewable Energy, Vol 5, No 3 (2015), Pagination: 138-141Abstract
Our present research work tries to incorporate the results of quantum game theory with the violent consequences like earthquakes often occurring in this earth. Due to several chaotic incidents the earth moves towards far-from equilibrium state resulting in fluctuation in BIS energy and BIS entropy. The journey from equilibrium to a far-from equilibrium state undergoes a quantum game which is very complex in nature and obeys various laws of statistical mechanics. An integrated system first breaks as the process of disorder evolves a large amount of heat changing the BIS entropy of the surrounding and brings about drastic changes in the strings which connect the system with the surrounding. This traumatic quantum game sustains for a very few moments causing a massive earthquake.Keywords
BIS Processes, Quantum Game Theory, BIS Energy, (LSFAO), Nash Equilibrium (NE).- Artificially Intellegent Anti-BIS Mechanism Using Shared Key Cryptography
Abstract Views :239 |
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Authors
Affiliations
1 Ramjas College, North Campus, University of Delhi, Delhi-110007, IN
1 Ramjas College, North Campus, University of Delhi, Delhi-110007, IN
Source
Invertis Journals of Science & Technology, Vol 8, No 4 (2015), Pagination: 202-208Abstract
As BIS processeses begin, the system approaches too far from equilibrium state leading to chances of loosing information within it. Information is one of the most important assets for any organization to protect against any form of damage or theft. We need to generate anti-BIS processes in order to protect the system from its loss. Cryptography means the art of encrypting and decrypting digital data using mathematical techniques. The ciphered data can only be deciphered by someone who has the mechanism for that. But if the original ciphered data or ciphering key gets damaged then the original data can never be recovered. Now, the Secret sharing scheme for digital data based on Shamir's threshold cryptography method to share the data among different users comes to rescue in such cases. The concept is developed in the form of a web application where one user submits the data and breaks it into shares after ciphering it through the proposed bit conversion method. The shares are distributed among different users depending on who can collectively view the original data. Now these users group can view data only if they have the minimum required no. of shares. This methodology is applicable to any form of digital data.Keywords
BIS (Breakdown of Integrated System), Cryptography, Secret Sharing, Masking, Cipher.- Hypergeometric Approach to Comprehend Complex BIS Processes:Expression of C.E.P. Waves in Terms of Kampe De Feriet Function
Abstract Views :147 |
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Authors
Affiliations
1 Department of Applied Sciences, Maharaja Surajmal Institute of Technology, GGSIP, IN
2 Department of Physics & Astrophysics, University of Delhi, Delhi, IN
3 Department of Physics, R.K. P.G. College, CCS University, Meerut, IN
4 Department of Physics, Ramjas College, North Campus, University of Delhi, Delhi, IN
5 Department of Physics, MIC, Asra, Bhagpat, IN
1 Department of Applied Sciences, Maharaja Surajmal Institute of Technology, GGSIP, IN
2 Department of Physics & Astrophysics, University of Delhi, Delhi, IN
3 Department of Physics, R.K. P.G. College, CCS University, Meerut, IN
4 Department of Physics, Ramjas College, North Campus, University of Delhi, Delhi, IN
5 Department of Physics, MIC, Asra, Bhagpat, IN
Source
Invertis Journals of Science & Technology, Vol 8, No 4 (2015), Pagination: 235-239Abstract
Constant disintegrations due to severe BIS processes lead to anarchy and disorder. In our present paper we have tried our best to explain the BIS mechanical processes with the help of hypergeometric function. BIS stands for breakdown of integrated system. Annihilation of living creatures gives rise to origin of EP waves. Analytic expansion of both regular and irregular EP wave functions for all values of angular momentum quantum number L as a product of Jacobi and generalized confluent hypergeometric functions have been evaluated here. They are deduced with the help of a new expansion formula for Kampe de Feriet function established in this paper and the orthogonal property of Jacobi polynomials.Keywords
Einstenian Pain Wave, Kampe De Feriet Function, Jacobi Polynomial, Hypergeometric Function, Mechanical BIS (Breakdown of Integrated System) Processes.- Perelman's Formula and Thurston's Picture for the Chaotic Universe in the Complex Hyperbolic Bis Manifold: Origin of Earth Quake, Sea Quake and Solar Quake
Abstract Views :147 |
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Authors
Affiliations
1 Department of Physics, Ramjas College, University of Delhi, Delhi, IN
2 Department of Physics & Astrophysics, University of Delhi, Delhi, IN
3 Head of the Department of Physics, MIC, Asra, Bagpat, U.P.,, IN
4 Department of Applied Sciences, Maharaja Surajmal Institute of Technology, Guru Gobind Singh Indraprastha University, Delhi, IN
1 Department of Physics, Ramjas College, University of Delhi, Delhi, IN
2 Department of Physics & Astrophysics, University of Delhi, Delhi, IN
3 Head of the Department of Physics, MIC, Asra, Bagpat, U.P.,, IN
4 Department of Applied Sciences, Maharaja Surajmal Institute of Technology, Guru Gobind Singh Indraprastha University, Delhi, IN