Seven Classes of LASER Diodes Enabled by Graphene and the Psi-Field introduces seven fundamentally new classes of laser diodes made possible by the interaction between graphene and the coherent pressure dynamics of the Ψ-field within the Quarkbase Cosmology framework. Instead of relying on electronic bandgaps, population inversion, or recombination physics, these devices operate through pressure-field resonance, curvature-dependent absorbance, coherent Ψ-phase dynamics, thermal hyperconductivity, plasmon–pressure hybridization, and anisotropic pressure redistribution. Each mechanism defines a distinct pathway for coherent electromagnetic emission in monolayer graphene. The document provides the physical foundation, device architectures, expected performance advantages, and experimental implications for all seven laser types. It positions graphene as a new universal photonic medium whose lasing capabilities arise from geometry, pressure coherence, and strain-engineered Ψ-field organization rather than electronic structure. The work is released under CC0/Public Domain, enabling unrestricted research, adaptation, and development.
Date: Nov 26, 2025
Author: Carlos Omeñaca Prado
ORCID: https://orcid.org/0009-0001-9750-5827
Resource type: Preprint
Publisher: Zenodo
License: CC0 Open Engineering Specification
Related links:
- https://zenodo.org/records/17718300
- https://archive.org/details/seven-new-classes-of-laser-diodes
- https://www.academia.edu/145263449/Seven_New_Classes_of_LASER_Diodes_Enabled_by_Graphene_and_the_Psi_Field_A_Quarkbase_Cosmology_Framework