About NARQC Research
An interdisciplinary research institute founded by Kerym Makraini, dedicated to advancing noncommutative algebra, the Riemann Hypothesis, and quantum computing through rigorous mathematical frameworks.
Kerym Makraini
Founder & Principal Researcher
Researcher specializing in noncommutative geometry, spectral approaches to the Riemann Hypothesis, and quantum computing. Author of the Twistorial Spectral Quantum Vacuum Theory (TSQVT) framework.
Affiliations:
Research Focus:
Research Areas
Noncommutative Algebra
Spectral geometry, C*-algebras, and the algebraic foundations of quantum physics through noncommutative geometry.
Riemann Hypothesis
Spectral approaches to the Riemann zeta function through the Weil–Connes programme and operator theoretic methods.
Quantum Computing
Photonic qubits, quantum error correction, and cryogenics-free quantum information processing via noncommutative structures.
Research Highlights
Peer-Reviewed Publication
"Emergent Lorentzian Spacetime and Gauge Dynamics from Twistorial Spectral Data" published in 2026.
Yang-Mills Mass Gap
Proposed solution to the Yang-Mills Existence and Mass Gap Millennium Problem via TSQVT framework.
Cryogenics-Free Qubits
Novel architecture for photonic qubits operating at ambient temperature using noncommutative twistorial structures.
Standard Model from Geometry
First-principles derivation of coupling constants and fermion masses from spectral data with 0.2% accuracy.
GitHub Repositories
View AllAlgebraic-Gate-Engine-Repo
Core implementation of the Algebraic Gate Engine
TSQVT-paper
Rigorous formulation of Twistor-Structural Quantum Vacuum Theory
NC-TAP
Noncommutative Twistorial Algebraic Principles
twistorial-spectral-action
Emergent Lorentzian Spacetime from Twistorial Spectral Data
rho-spectral-gravity
Gravity from the Structural Intensity Field (ρ)
epjc-tunnelling-repo
Macroscopic Tunnelling in Spectral Geometry (EPJC)
Explore Our Research
Browse all publications and computational supplements on our GitHub repositories.