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Theorems — Quantum Mechanics

Every theorem derives from Axiom-0. Classical results emerge as degenerate limits.

28 theorems across 4 modules

Catalog

IDNameModule
T-ADOT-1MI TRANSITION AS COLLAPSE EVENTatom_dot_mi_transition
T-ADOT-2CONDUCTANCE-FIDELITY ORDERINGatom_dot_mi_transition
T-ADOT-3TEMPERATURE-DRIVEN RETURN TRAJECTORYatom_dot_mi_transition
T-ADOT-4ACTIVATION ENERGY AS κ SENSITIVITYatom_dot_mi_transition
T-ADOT-5EXTENDED HUBBARD HETEROGENEITYatom_dot_mi_transition
T-ADOT-6MOTT GAP AS SEAM BUDGET CEILINGatom_dot_mi_transition
T-ADOT-7CROSS-SCALE UNIVERSALITYatom_dot_mi_transition
T-DSE-1Tier-1 Kernel Identities.double_slit_interference
T-DSE-2Complementarity as Channel Anticorrelation.double_slit_interference
T-DSE-3Complementarity Cliff.double_slit_interference
T-DSE-4Quantum Eraser Lifts IC Above Cliff.double_slit_interference
T-DSE-5Classical Limit as Maximum Channel Death.double_slit_interference
T-DSE-6Delayed Choice Invariance.double_slit_interference
T-DSE-7Partial Measurement Transcends Both Extremes.double_slit_interference
T-MLD-1Tier-1 Kernel Identities.muon_laser_decay
T-MLD-2Rate suppression is monotonic in perturbative sequence.muon_laser_decay
T-MLD-350% floor for Ω > 2.muon_laser_decay
T-MLD-4Parameter utilization orders F.muon_laser_decay
T-MLD-5IC is minimized at ultra-weak scenario.muon_laser_decay
T-MLD-6Perturbative limit matches leading-order formula.muon_laser_decay
T-MLD-7Interference and kernel balance are anticorrelated.muon_laser_decay
T-TERS-1SELF/CROSS DECOMPOSITION AS HETEROGENEITY GAPters_near_field
T-TERS-2SCREENING-INDUCED SIGN REVERSAL AS SEAM EVENTters_near_field
T-TERS-3LINEAR REGIME AS ε-CONTROLLED SENSITIVITYters_near_field
T-TERS-4GROUND-STATE NEGLECT AS POSITIONAL ILLUSIONters_near_field
T-TERS-5PERIODICITY AS FROZEN CONTRACT CONSISTENCYters_near_field
T-TERS-6BINDING DISTANCE SENSITIVITY AS κ BOUNDters_near_field
T-TERS-7MODE-DEPENDENT SCREENING AS CHANNEL PROJECTIONters_near_field

Atom Dot Mi Transition

Source: closures/quantum_mechanics/atom_dot_mi_transition.py

T-ADOT-1: MI TRANSITION AS COLLAPSE EVENT

T-ADOT-2: CONDUCTANCE-FIDELITY ORDERING

T-ADOT-3: TEMPERATURE-DRIVEN RETURN TRAJECTORY

T-ADOT-4: ACTIVATION ENERGY AS κ SENSITIVITY

T-ADOT-5: EXTENDED HUBBARD HETEROGENEITY

T-ADOT-6: MOTT GAP AS SEAM BUDGET CEILING

T-ADOT-7: CROSS-SCALE UNIVERSALITY

Double Slit Interference

Source: closures/quantum_mechanics/double_slit_interference.py

T-DSE-1: Tier-1 Kernel Identities.

T-DSE-2: Complementarity as Channel Anticorrelation.

T-DSE-3: Complementarity Cliff.

T-DSE-4: Quantum Eraser Lifts IC Above Cliff.

T-DSE-5: Classical Limit as Maximum Channel Death.

T-DSE-6: Delayed Choice Invariance.

T-DSE-7: Partial Measurement Transcends Both Extremes.

Muon Laser Decay

Source: closures/quantum_mechanics/muon_laser_decay.py

T-MLD-1: Tier-1 Kernel Identities.

T-MLD-2: Rate suppression is monotonic in perturbative sequence.

T-MLD-3: 50% floor for Ω > 2.

T-MLD-4: Parameter utilization orders F.

T-MLD-5: IC is minimized at ultra-weak scenario.

T-MLD-6: Perturbative limit matches leading-order formula.

T-MLD-7: Interference and kernel balance are anticorrelated.

Ters Near Field

Source: closures/quantum_mechanics/ters_near_field.py

T-TERS-1: SELF/CROSS DECOMPOSITION AS HETEROGENEITY GAP

T-TERS-2: SCREENING-INDUCED SIGN REVERSAL AS SEAM EVENT

T-TERS-3: LINEAR REGIME AS ε-CONTROLLED SENSITIVITY

T-TERS-4: GROUND-STATE NEGLECT AS POSITIONAL ILLUSION

T-TERS-5: PERIODICITY AS FROZEN CONTRACT CONSISTENCY

T-TERS-6: BINDING DISTANCE SENSITIVITY AS κ BOUND

T-TERS-7: MODE-DEPENDENT SCREENING AS CHANNEL PROJECTION

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