The preprints in this archive represent early-stage, high-energy mathematical modeling exploring the theoretical limits of discrete combinatorial geometry. As of Q2 2026, Lambda 24 Research has transitioned exclusively to an empirical, condensed-matter biophysics mandate.
Proposed Research Pillars
1. Quantum Hardware (DQI / AMO Physics)
Advancing Sub-Tegmark Phase-Locking in Hybrid $^{87}\text{Sr}$ Tweezer Arrays via $\Lambda_{24}$ Topological Constraints. We are actively seeking cavity-QED and programmable tweezer experimentalists to build truncated 24-node graphs to test topological decoherence thresholds.
2. Biological Physics (DBIO / Soft Matter)
Mapping Isomorphic Resonance: Discrete Topological Error-Correction in Cytoskeletal Networks via the Extended Binary Golay Code. We are currently modeling multiscale mechanisms for macroscopic quantum coherence in the tubulin heterodimer.
Preprint Access
The foundational manuscript, Isomorphic Resonance in the 24-Dimensional Leech Lattice: A Unifying Framework for Microtubular Quantum Coherence and Cosmological Anisotropy, is currently available via Zenodo.
Direct Contact for APS Experimentalists:
To discuss physical cavity-QED or acoustic testing of the $\Lambda_{24}$ lattice constraints, contact the PI directly: