Übersicht

Time Crystal Emitter · Bill of Materials (BOM)#

Group Item Notes
Resonance Substrate Thin‑film ferromagnet sample RF‑driven magnon layer, MOKE compatible
Resonance Substrate Josephson junction array (LN2‑class) Accessible superconducting oscillator
Chamber Optical‑grade transparent housing Supports MOKE / laser access
Chamber Modular resonator mounts Swap ferromagnet / JJ modules
Chamber EM shielding (mu‑metal or equivalent) Reduces external interference
Actuation RF signal generator Drives ferromagnet / JJ oscillations
Actuation Piezo stack or actuator Mechanical / force channel
Actuation Small electromagnets / coils Local field modulation
Actuation Acoustic transducer (optional) Fluids/fields perturbation channel
Sensing MOKE optical setup (laser + detector) Thin‑film ferromagnet readout
Sensing SQUID magnetometer (or equivalent) Superconducting circuit readout
Control & Logging DAQ / oscilloscope / digitizer Time‑series capture
Control & Logging Host machine with RTT‑Inside stack Converts signals → RTTcode packets
Safety & Support Cryogenic handling gear (for JJ arrays) LN2 or appropriate cryogen
Safety & Support Laser safety eyewear & beam enclosures For MOKE / optical diagnostics
Safety & Support RF shielding and grounding hardware Prevents leakage and noise

RTT‑Inside note:
Each logged experiment should include a corresponding RTTcode packet with experiment.experiment_id, seed, trial, and provenance fields populated for deterministic replay.

Updated

Time Crystal Emitter BOM — TriadicFrameworks