A collection of my research across quantum computing, artificial intelligence, cybersecurity, and beyond.
Agentic AI systems are compressing competitive hacking timelines faster than the cybersecurity community has acknowledged. This paper analyzes first blood data from 423 Hack The Box machines released between March 2017 and October 2025, finding that root blood times have declined approximately 16% per year in log-space, with the sharpest drops concentrated after the emergence of large language models and agentic exploitation frameworks. All four difficulty tiers show statistically significant compression in the Post-LLM era.
A theoretical framework proposing that quantum entanglement can be directly manipulated to relocate physical mass. By leveraging the ER=EPR conjecture and the hypothesis that space-time is emergent from entanglement, I outline a mechanism for disentangling an object from its environment and reassigning its entanglement to a distant target, effectively collapsing the space-time separation between them.
