A Julia package for computing SICs and related objects.

Numerical simulation of quantum illumination using a two-mode mixing model

Cosmological applications of the SymC framework. Applies χ ≈ 1 stability principles to universe-scale phenomena including cosmic acceleration onset, black hole thermodynamics, and cyclical cosmology. Demonstrates framework consistency from quantum boundaries to cosmic structure.Retry

Computational appendix of Phys. Rev. X 15, 021013 (2025) [arXiv:2408.00831]

Mathematical consciousness framework synthesizing IIT, GNWT, FEP, SOC, and HOT — 22 falsifiable predictions, Kuramoto simulation validation, and empirical Sleep-EDF pipeline

Trial-resolved quantum run-quality audit primitive detecting temporal dependence under Born-stable marginals.

Operational Wavefunction Collapse — operational and information-theoretic framework for measurement collapse with executable consistency checks.

🔬 Advanced Laboratory Software for Quantum Measurement Devices is a comprehensive laboratory software solution designed to interface with and control quantum measurement devices. It enables national laboratories and universities to standardize their electrical measurements without multiplying devices.

Simulation and analysis of a cognitive phase transition in quantum observer perception. Based on the Renkel experiment and categorical quantum models.

Java-based simulation exploring quantum superposition and state swapping. Focuses on the effects of measuring and altering position and momentum of particles, demonstrating quantum measurement influence on particle states. Includes various test scenarios mirroring quantum mechanics principles.

A Framework for Controlled Collapse and Information Encoding Without Decoherence

A conceptual and experimentally feasible triple-layer protocol based on Young’s double-slit experiment, designed to test whether physical interaction alone suffices for loss of interference or whether conscious observation adds any observable role in quantum measurement.

Quantum-Based Fraud Detection (QBFD) is a quantum algorithm designed to detect fraudulent activities in financial transactions using quantum computing principles.

This repository contains the python scripts used to perform the six measurements in the Mermin-Peres Magic Square on IBM's quantum computers using the qiskit library.

Source of my bachelor thesis

Observer Frequency Structure Interpretation – interpretative framework on the quantum measurement problem.

quMeas is an open-source, high-performance, quantum computing library for Pauli measurements.

Self-consistent fixed-point simulator on a dcpo: U ≅ μF = F(μF,μF) = colimⁿFⁿ(⊥) ≅ μF