from phys.const import energy, psi_k from phys.quantum_systems import * import numpy as np import cmath from scipy.constants import Planck class particle: def __init__(self, mass: float, system: infbox, n_state: int=1): if n_state < 1: print(f"Particle energy state index must be 1 or more! {n_state=}") return self.mass = mass # particle mass self.n_state = n_state # energy state index self.system = system # quantum system self.energy = energy(self.n_state) # total energy "for" the particle self.psi_k = psi_k(self.n_state) # wave function coeff- self.system.add_particle(self) def psi(self, x): return self.system.norm_factor * np.sin(self.psi_k * x) def wave(self, x, time) -> complex: z_coef = -( (2*np.pi*self.energy*time)/Planck ) # exponent coef z = complex(0, z_coef) # full coef (complex) time_factor = cmath.exp(z) psi = self.system.norm_factor * np.sin(self.psi_k * x) return psi * time_factor