import numpy as np I = np.matrix([[1, 0], [0, 1]]) Z = np.matrix([[1, 0], [0, -1]]) X = np.matrix([[0, 1], [1, 0]]) def Mi(nqbits, i, M): result = 1 for j in range(nqbits): if(j != i): result = np.kron(result, I) else: result = np.kron(result, M) return result def H_interaction(nqbits): interaction_terms = [Mi(nqbits, i, Z) @ Mi(nqbits, i+1, Z) for i in range(nqbits - 1)] return sum(interaction_terms) def H_field(nqbits, g): field_terms = [g*Mi(nqbits, i, X) for i in range(nqbits)] return sum(field_terms) def H(nqbits, g): return (-H_interaction(nqbits) + H_field(nqbits, g)).real