Computational physics2026Methods paper

A Validated Mathieu–Floquet Numerical Testbed for Finite-Time Dynamical Casimir Simulations

A validation-first numerical laboratory for finite-time Mathieu–Floquet and dynamical Casimir simulations. The contribution is the testbed and its error controls, not a claim of new physics.

DERIVED
PROGRAMThe Escapement
CURRENT POSTURERelease candidate
DISCLOSUREPublic release
01 / PUBLIC ABSTRACT

ORIENTATION, NOT OVERCLAIM.

A validation-first numerical laboratory for finite-time Mathieu–Floquet and dynamical Casimir simulations. The contribution is the testbed and its error controls, not a claim of new physics.

02 / CURRENT POSTURE

The current public surface is intended to support a full technical release after final source, reproducibility, and disclosure gates are cleared.

03 / EVIDENCE BOUNDARY

This page does not imply peer review, acceptance, experimental replication, or public availability of every supporting asset. The canonical register distinguishes those states explicitly.

04 / RELEASE GATE

Authorship, source verification, claims-to-evidence mapping, reproducibility, and patent-disclosure review must be cleared before any final external release.

REPRODUCE

Reproduction package prepared on release. No figure ships that cannot be regenerated.

PUBLIC APERTURE

PUBLIC RELEASE

The current public surface is intended to support a full technical release after final source, reproducibility, and disclosure gates are cleared.

OPEN THE ESCAPEMENT
NEXT RESEARCH FILEGY-R-010The Wolf Chapel Casimir Test Bed: Parametric Vacuum Amplification as a Tabletop Analog for Threshold-Coupling Dynamics