lemma
proved
shiftedConfig_zero
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IndisputableMonolith.Foundation.CoupledRecognitionCores on GitHub at line 145.
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142 simp [phaseCharacter]
143
144/-- Zero displacement leaves a coupled-core configuration unchanged. -/
145lemma shiftedConfig_zero {N : ℕ} (s : CoupledCoreIndex N) :
146 shiftedConfig 0 s = s := by
147 funext x
148 apply Fin.ext
149 simp [shiftedConfig, sub4]
150
151/-- Shifting after adding the same displacement returns the original configuration. -/
152theorem shiftedConfig_addedConfig {N : ℕ} (a s : CoupledCoreIndex N) :
153 shiftedConfig a (addedConfig a s) = s := by
154 funext x
155 exact sub4_add4_cancel_core (a x) (s x)
156
157/-- Adding after shifting the same displacement returns the original configuration. -/
158theorem addedConfig_shiftedConfig {N : ℕ} (a s : CoupledCoreIndex N) :
159 addedConfig a (shiftedConfig a s) = s := by
160 funext x
161 exact add4_sub4_cancel_core (s x) (a x)
162
163/-- For fixed `s`, the displacement label is recoverable from `addedConfig a s`. -/
164theorem addedConfig_eq_addedConfig_iff_left {N : ℕ}
165 (a a' s : CoupledCoreIndex N) :
166 addedConfig a s = addedConfig a' s ↔ a = a' := by
167 constructor
168 · intro h
169 funext x
170 exact (add4_eq_add4_iff_left_core (a x) (a' x) (s x)).mp (congrArg (fun f => f x) h)
171 · intro h
172 subst h
173 rfl
174
175/-- The tensor-Weyl monomial on the concrete coupled-core carrier. -/