π’ TFIM/LoschmidtEcho/OBC
Generated by docs/atlas/generate.jl β a pure VIEW over the *_registry.jl claims + the static test/INVENTORY.jsonl AST scan. No test is executed and no src is run; test/INVENTORY.jsonl is regenerated in-place (idempotently) from that static scan; fetch/@register untouched. Assurance labels are PROVISIONAL: residuals / confidence are not shown yet (RES not wired). Badges reflect the committed test AST, not the latest CI run β a hub can read green while its @test is red between regenerations. @sweep = a graceful regime-resolution gap, not card omission.
src claim
- method
bdg, statusexact, reliabilityhigh, refs: Heyl2013 | Heyl2018 - L(t) = βn |cosΒ²ΞΈn + sinΒ²ΞΈn e^{-2iΞn t}|Β² via OBC BdG diagonalisation of H0, Hf.
Corroboration
| regime | mechanism | independence | refs | file |
|---|---|---|---|---|
@sweep | second_closed_form | π’ structural | Loschmidt rate function r(t=0) = 0 in any BC, for any quench (initial state normalized) | test/models/quantum/TFIM/test_TFIM_loschmidt_t0_batch.jl |
@sweep | second_closed_form | π’ structural | Loschmidt rate function r(t=0) = 0 in any BC, for any quench (initial state normalized) | test/models/quantum/TFIM/test_TFIM_loschmidt_t0_batch.jl |
@sweep | second_closed_form | π’ structural | Loschmidt rate function r(t=0) = 0 in any BC, for any quench (initial state normalized) | test/models/quantum/TFIM/test_TFIM_loschmidt_t0_batch.jl |
@sweep | second_closed_form | π’ structural | Loschmidt rate function r(t=0) = 0 in any BC, for any quench (initial state normalized) | test/models/quantum/TFIM/test_TFIM_loschmidt_t0_batch.jl |
@sweep | second_closed_form | π’ structural | Loschmidt rate function r(t=0) = 0 in any BC, for any quench (initial state normalized) | test/models/quantum/TFIM/test_TFIM_loschmidt_t0_batch.jl |
@sweep | second_closed_form | π’ structural | Loschmidt rate function r(t=0) = 0 in any BC, for any quench (initial state normalized) | test/models/quantum/TFIM/test_TFIM_loschmidt_t0_batch.jl |
@sweep | second_closed_form | π’ structural | Loschmidt rate function r(t=0) = 0 in any BC, for any quench (initial state normalized) | test/models/quantum/TFIM/test_TFIM_loschmidt_t0_batch.jl |
@sweep | second_closed_form | π’ structural | Loschmidt rate function r(t=0) = 0 in any BC, for any quench (initial state normalized) | test/models/quantum/TFIM/test_TFIM_loschmidt_t0_batch.jl |
@sweep | second_closed_form | π’ structural | Loschmidt rate function r(t=0) = 0 in any BC, for any quench (initial state normalized) | test/models/quantum/TFIM/test_TFIM_loschmidt_t0_batch.jl |
@sweep | second_closed_form | π’ structural | Loschmidt rate function r(t=0) = 0 in any BC, for any quench (initial state normalized) | test/models/quantum/TFIM/test_TFIM_loschmidt_t0_batch.jl |
@sweep | second_closed_form | π’ structural | Loschmidt rate function r(t=0) = 0 in any BC, for any quench (initial state normalized) | test/models/quantum/TFIM/test_TFIM_loschmidt_t0_batch.jl |
@sweep | second_closed_form | π’ structural | Loschmidt rate function r(t=0) = 0 in any BC, for any quench (initial state normalized) | test/models/quantum/TFIM/test_TFIM_loschmidt_t0_batch.jl |
Test calls
The exact verify(...) call the harness executed for this hub (reconstructed from the test AST):
verify(TFIM(; 1.0 = 1.0, h = 1.0), LoschmidtEcho(), OBC(8); route = :second_closed_form, independent = 0.0, agree_within = 1.0e-10, refs = ["Loschmidt rate function r(t=0) = 0 in any BC, for any quench (initial state normalized)"], fetch_kw = (; initial = TFIM(; 1.0 = 1.0, h = 0.5), t = 0.0))verify(TFIM(; 1.0 = 1.0, h = 1.0), LoschmidtEcho(), OBC(12); route = :second_closed_form, independent = 0.0, agree_within = 1.0e-10, refs = ["Loschmidt rate function r(t=0) = 0 in any BC, for any quench (initial state normalized)"], fetch_kw = (; initial = TFIM(; 1.0 = 1.0, h = 0.5), t = 0.0))verify(TFIM(; 1.0 = 1.0, h = 2.0), LoschmidtEcho(), OBC(8); route = :second_closed_form, independent = 0.0, agree_within = 1.0e-10, refs = ["Loschmidt rate function r(t=0) = 0 in any BC, for any quench (initial state normalized)"], fetch_kw = (; initial = TFIM(; 1.0 = 1.0, h = 0.5), t = 0.0))verify(TFIM(; 1.0 = 1.0, h = 2.0), LoschmidtEcho(), OBC(12); route = :second_closed_form, independent = 0.0, agree_within = 1.0e-10, refs = ["Loschmidt rate function r(t=0) = 0 in any BC, for any quench (initial state normalized)"], fetch_kw = (; initial = TFIM(; 1.0 = 1.0, h = 0.5), t = 0.0))verify(TFIM(; 1.0 = 1.0, h = 1.0), LoschmidtEcho(), OBC(8); route = :second_closed_form, independent = 0.0, agree_within = 1.0e-10, refs = ["Loschmidt rate function r(t=0) = 0 in any BC, for any quench (initial state normalized)"], fetch_kw = (; initial = TFIM(; 1.0 = 1.0, h = 1.5), t = 0.0))verify(TFIM(; 1.0 = 1.0, h = 1.0), LoschmidtEcho(), OBC(12); route = :second_closed_form, independent = 0.0, agree_within = 1.0e-10, refs = ["Loschmidt rate function r(t=0) = 0 in any BC, for any quench (initial state normalized)"], fetch_kw = (; initial = TFIM(; 1.0 = 1.0, h = 1.5), t = 0.0))verify(TFIM(; 1.0 = 1.0, h = 2.0), LoschmidtEcho(), OBC(8); route = :second_closed_form, independent = 0.0, agree_within = 1.0e-10, refs = ["Loschmidt rate function r(t=0) = 0 in any BC, for any quench (initial state normalized)"], fetch_kw = (; initial = TFIM(; 1.0 = 1.0, h = 1.5), t = 0.0))verify(TFIM(; 1.0 = 1.0, h = 2.0), LoschmidtEcho(), OBC(12); route = :second_closed_form, independent = 0.0, agree_within = 1.0e-10, refs = ["Loschmidt rate function r(t=0) = 0 in any BC, for any quench (initial state normalized)"], fetch_kw = (; initial = TFIM(; 1.0 = 1.0, h = 1.5), t = 0.0))verify(TFIM(; 2.0 = 2.0, h = 3.0), LoschmidtEcho(), OBC(8); route = :second_closed_form, independent = 0.0, agree_within = 1.0e-10, refs = ["Loschmidt rate function r(t=0) = 0 in any BC, for any quench (initial state normalized)"], fetch_kw = (; initial = TFIM(; 2.0 = 2.0, h = 0.5), t = 0.0))verify(TFIM(; 2.0 = 2.0, h = 3.0), LoschmidtEcho(), OBC(12); route = :second_closed_form, independent = 0.0, agree_within = 1.0e-10, refs = ["Loschmidt rate function r(t=0) = 0 in any BC, for any quench (initial state normalized)"], fetch_kw = (; initial = TFIM(; 2.0 = 2.0, h = 0.5), t = 0.0))verify(TFIM(; 0.5 = 0.5, h = 1.0), LoschmidtEcho(), OBC(8); route = :second_closed_form, independent = 0.0, agree_within = 1.0e-10, refs = ["Loschmidt rate function r(t=0) = 0 in any BC, for any quench (initial state normalized)"], fetch_kw = (; initial = TFIM(; 0.5 = 0.5, h = 2.0), t = 0.0))verify(TFIM(; 0.5 = 0.5, h = 1.0), LoschmidtEcho(), OBC(12); route = :second_closed_form, independent = 0.0, agree_within = 1.0e-10, refs = ["Loschmidt rate function r(t=0) = 0 in any BC, for any quench (initial state normalized)"], fetch_kw = (; initial = TFIM(; 0.5 = 0.5, h = 2.0), t = 0.0))Assurance (provisional)
- level: corroborated-at-p π’
- cards: 12 Β· model ED-feasible
- RES not wired β measured residuals / confidence are not shown yet.