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WORK EXPERIENCE

Professional journey through cybersecurity, software engineering, and theoretical research. From practical development to cosmological exploration.

Professional Experience

CodSoft

Cybersecurity & Development Intern

September 2025 - October 2025

Worked on live cybersecurity and automation projects, focusing on vulnerability scanning, exploit analysis, and tool development for ethical hacking. Improved workflow efficiency through Python-based automation and contributed to secure software development practices.

Conducted vulnerability assessments and penetration testing on web applications
Developed Python automation tools for security scanning and reporting
Contributed to secure coding practices and code review processes
Analyzed security logs and implemented monitoring solutions
Python Cybersecurity Vulnerability Analysis Automation Penetration Testing

Certificates & Achievements

CodSoft Internship Certificate
CodSoft Internship Certificate
CodSoft Cybersecurity Certificate
CodSoft Internship Offer Letter

Internshala

Student Partner (ISP) - Campus Ambassador

October 2025 - December 2025

Promoted career growth programs and internships, represented Internshala among peers, and organized skill-enhancing workshops to inspire student upskilling and awareness. Acted as a liaison between the organization and student community.

Organized career development workshops for 200+ students
Promoted internship opportunities and skill development programs
Conducted sessions on resume building and interview preparation
Built campus network for internship awareness and opportunities
Leadership Public Speaking Event Management Networking Career Development

Certificates & Achievements

Internshala Student Partner Certificate
Internshala Student Partner Certificate
Internshala Leadership Certificate
Internshala(IPS) Offer Letter

JPMorgan Chase & Co.

Software Engineering Job Simulation

February 2026

Completed a comprehensive software engineering simulation focused on building a transaction processing system with Spring Boot microservices, Kafka message streaming, and REST API integration.

Integrated Kafka into a Spring Boot microservice to consume and deserialize high-volume transaction messages
Implemented transaction validation and persistence logic with Spring Data JPA and H2 SQL database
Connected service to external REST Incentive API using RestTemplate for transactional workflows
Developed REST endpoint for querying user balances with JSON responses through Spring controller
Verified system behavior using Maven test suites and debugger-driven inspection
Java Spring Boot Kafka Microservices REST API SQL JPA Maven

Certificate

JPMorgan Chase Software Engineering Certificate
JPMorgan Chase Software Engineering Simulation Certificate

Cosmological Research

I've recently documented an independent theoretical framework exploring the behavior of ultra-dense matter under extreme magnetic fields and strong spacetime curvature, a regime relevant to highly magnetized compact astrophysical objects.

The Hyper-Dense Magneto-Gravitational Quantum Matter (HMGQM) framework investigates how known physics — General Relativity, strong-field Quantum Electrodynamics, and relativistic fermionic matter — interact when standard isotropic fluid approximations break down.

Anisotropic Stress–Energy Tensor

Replacing scalar pressure in extreme magnetic regimes with anisotropic stress-energy representation for ultra-dense matter.

QED Vacuum Polarization

Explicit incorporation of Quantum Electrodynamics vacuum polarization as a leading-order contributor in extreme magnetic fields.

Modified Equilibrium Conditions

Derived equilibrium conditions for strongly magnetized, ultra-dense matter under extreme gravitational curvature.

Observable Signatures

Potential signatures include polarization-dependent lensing and deviations in gravitational-wave ringdown modes from compact objects.

This work is theoretical and exploratory in nature. It does not claim experimental verification, laboratory realization, or technological application. The goal is to document a consistent framework, clarify assumptions, and invite critical review and refinement.

The full draft and supporting material are openly available on GitHub for transparency, discussion, and versioned development. I'm sharing this as part of my learning journey in theoretical physics and as an exercise in engaging with unsolved regimes where conventional models may reach their limits.

Download HMGQM Framework (PDF)