Manas A.H. Sonar
Aspiring Physicist & Computer Scientist
Nashik, IN.About
Aspiring physicist and computer scientist Manas A.H. Sonar, 17, demonstrates exceptional intellectual curiosity and advanced capabilities, spearheading theoretical frameworks like the Selective Actuality Model to dive into Quantum Mechanics and General Relativity. With research under peer-review in Pseudorandom Number Generators and practical application through a custom cryptographic cipher and freelance web development, he blends high-level scientific inquiry with tangible engineering impact. Balancing rigorous academic pursuits with groundbreaking independent research, Manas is poised to contribute significantly to advanced STEM fields.
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Work
Freelance Web Development
Web Developer
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Education
Science (Physics, Chemistry, Mathematics, English, Information Technology/Geography)
Maharashtra State Board (HSC)
Secondary Education
CBSE (Central Board of Secondary Education)
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Publications
PRNG Research: Pseudorandom Number Generators and Pattern Recognition
Royal Society Open Science (Under Review)
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Skills
Programming Languages
Python, HTML, CSS, JavaScript
Web Development
Full-Stack Development, Responsive Design, Client Management
Cryptography
Permutation-based Ciphers, Modular Arithmetic, Pattern Recognition
Advanced Mathematics & Physics
Multivariable Calculus, Quantum Theory, General Relativity, Theoretical Physics
Research & Development
Scientific Inquiry, Theoretical Frameworks, Academic Writing, Peer Review Process
Self-Learning & Initiative
Independent Study, Advanced Physics, Creative Arts, JEE Preparation, SAT Preparation
AI/LLM
Large Language Models, AI Research, Machine Learning Concepts
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Interests
Theoretical Physics
Quantum Mechanics, General Relativity, Cosmology
Computer Science
Cryptography, Artificial Intelligence, Large Language Models
Creative Arts
Independent Study, Artistic Expression
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Projects
RANU Cipher
Designing a custom-built, permutation-based cryptographic stream cipher.
Selective Actuality Model (SAM)
Developing a pre-printed theoretical framework aimed at bridging the fundamental gap between Quantum Mechanics and General Relativity.
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