ABSTRACT We present a room temperature superconductor design that does not rely on Cooper pairs (BCS theory) nor on exotic cuprate chemistry. Instead, it uses **birefringent mass splitting** in poled quartz: an infrared laser passing along the length of a quartz cell splits into two helical paths – one carrying positive mass (m⁺, forward time) and the other carrying negative mass (m⁻, backward time). When the two components are brought together in a resonant circuit, m⁺ + m⁻ = 0, inertia collapses and electrical resistance drops to zero. The basic superconducting cell has a cross section of **5 mm × 5 mm** (the dimensions perpendicular to the laser beam) and a **variable length** (the direction of birefringent splitting). The 0. 254 mm thickness appears only in the optional capacitor stack (for energy storage), not in the superconductor itself. No CuO doping is required for superconductivity; CuO is added only if the device also acts as a self powered capacitor (ambient energy harvesting). The device operates from 300 K to 573 K (room temperature to 300 °C) with an estimated critical current density > 10⁸ A/cm². This blueprint is directly derived from the unified energy law **E = m·v^ (±ln (P) /ln (27) ) ** and is supported by empirical evidence from the Harmonic Framework (cat purr, Schumann resonance, sonoluminescence, lightning, Biefeld Brown, Hutchison). Recent experiments (CNRS/Simons Foundation, April 2026) showing coordinated quantum “dance” in a gas challenge BCS theory and independently validate the existence of collective, phase locked pairing – the same principle underlying our mass splitting superconductor.
Peter James Thompson (Sun,) studied this question.
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