C070 - Drive (C) passes ~= 18 mA oscillating at 2 pi x 16.5 MHz through tracks 1.1 mm from the i...
Verdict: partial
Location: Supp. Mat. S5
Type / expected artifact: numeric / numeric
Claim: Drive (C) passes ~= 18 mA oscillating at 2 pi x 16.5 MHz through tracks 1.1 mm from the ion, creating a 5.4 uT B-field perpendicular to the trap surface and driving |down><->|up> at Rabi frequency Omega_C = 2 pi x 78 kHz (pi-time 6.4 us).
Models: extraction claude-opus-4-8; verification gpt-5; verification_chain claude-opus-4-8 -> gpt-5; verdict_chain partial -> partial.
Limitations: paper_text_only_reimplementation.
Source location(s): source/supp_content.tex:135 (Supp. Mat. S5).
Conclusion
Paper: 18mA at 2pi16.5MHz, tracks 1.1mm -> 5.4uT -> magnetic-dipole Omega_C=2pi78kHz (pi-time 6.4us). (a) pi-time=pi/Omega_C=6.41us matches 6.4us (0.2%, exact identity). (b) infinite-wire B=mu0 I/(2 pi r)=3.27uT at 1.1mm (order-of-magnitude consistent with 5.4uT given two tracks/geometry). (c) Omega=g mu_B B/(2 hbar)=2pi*75.6kHz vs paper 78kHz (~3%), requiring the magnetic-dipole matrix element model. pi-time<->Omega_C identity is exact; the field->Rabi step uses a physical model and is ~3% off -> partial.
Verification details
Executable rerun: run.py exited 0 in 0.503s; log verification/C070/attempts/R002/run.log.
Output excerpt:
(a) pi/Omega_C = 6.4103 us (paper 6.4 us)
(b) single-wire B = mu0 I/(2 pi r) = 3.273 uT (paper amplitude 5.4 uT)
note: two symmetric tracks + geometry/projection affect this; order-of-mag check
(c) Omega = g mu_B B/(2 hbar) = 2pi*75.58 kHz (paper 2pi*78 kHz)
ratio to paper = 0.969
(alt Omega = g mu_B B/hbar = 2pi*151.16 kHz)