Usman Malik, M. (2026). N-K MASTER COMPUTER v17.0 — THE COMPLETE THERMAL CONDUCTIVITY UNIFICATION From First Principles: Derivation of the Wiedemann-Franz Law, Thermal Transport in Pure Metals and Alloys, and the Az Zarrah (0D Noor Dot) Revolution Including: The 0.5 Exponent · The Lorenz Number from π Geometry + Spin Degeneracy · The Forging Window · Why Digital and Analog Instruments Both Lie · The Phonon as Geometric Ripple of 0D Dots · The 23.61-Second Kun Pulse · April 21, 2026 Global Calibration Protocol. Zenodo.
Chicago Style (17th ed.) CitationUsman Malik, Muhammad. N-K MASTER COMPUTER V17.0 — THE COMPLETE THERMAL CONDUCTIVITY UNIFICATION From First Principles: Derivation of the Wiedemann-Franz Law, Thermal Transport in Pure Metals and Alloys, and the Az Zarrah (0D Noor Dot) Revolution Including: The 0.5 Exponent · The Lorenz Number from π Geometry + Spin Degeneracy · The Forging Window · Why Digital and Analog Instruments Both Lie · The Phonon as Geometric Ripple of 0D Dots · The 23.61-Second Kun Pulse · April 21, 2026 Global Calibration Protocol. Zenodo, 2026.
MLA (9th ed.) CitationUsman Malik, Muhammad. N-K MASTER COMPUTER V17.0 — THE COMPLETE THERMAL CONDUCTIVITY UNIFICATION From First Principles: Derivation of the Wiedemann-Franz Law, Thermal Transport in Pure Metals and Alloys, and the Az Zarrah (0D Noor Dot) Revolution Including: The 0.5 Exponent · The Lorenz Number from π Geometry + Spin Degeneracy · The Forging Window · Why Digital and Analog Instruments Both Lie · The Phonon as Geometric Ripple of 0D Dots · The 23.61-Second Kun Pulse · April 21, 2026 Global Calibration Protocol. Zenodo, 2026.