Below is an overview of key works associated with the Information–Energetic Thermodynamics (IET) method and related validation and theoretical frameworks. Each record is listed with a clear identification of the output type and a DOI for unambiguous citation.
The methodological foundation of IET: unifying energy, information, and time into a practically usable analytical framework. The document defines key quantities, reference planes, interpretative regimes, and principles that translate the abstract notion of reversibility into a computationally tractable and cross-platform comparable metric.
Application of the IET invariant metric to quantum regimes: formalizing a criterion of energy–information efficiency in the context of qubits, including interpretation near the Landauer limit. Emphasis is placed on metrological consistency, definitions of Teff, and a capacity-based estimate of information flow.
A transparent and reproducible derivation of the dimensional/dimensionless structure of the invariant metric in autonomous feedback-controlled systems. The text defines a “resonant threshold” and shows how energy flows and information production can be analyzed within a unified criterion of critical efficiency.
A theoretical synthesis connecting geometric structures and non-equilibrium information thermodynamics within the SCFH–RMV framework. The work consolidates concepts of coherence, information flows, and physical constraints into a unified invariant structure.
The DOI ensures unambiguous citation and traceable continuity of versions and related outputs within the same research program.
This work interprets Landauer’s principle and experimental confirmations of the limit in the context of a dimensionless invariant structure. The text connects the minimal energetic cost of logically irreversible operations with a unified description of energy–information couplings.
Each record is listed with a DOI for unambiguous identification, a clear specification of the output type (preprint / article / repository record), and a concise description of its substantive contribution within IET and related frameworks. The goal is a transparent and stable bibliographic trail suitable for scholarly communication, peer review, and long-term archiving.
