Time in units of [2pi/unit of frequencies]
Periods: [6.28318531e+30 1.14376452e+02 1.42970565e+02 6.28318531e+30
 3.14159265e+02 3.14159265e+02]
Smallest Period: 114.37645211482116
Corresponding timestep: 0.05718822605741058
Original total time: 1794
Resulting total time: 1789.9914755969512
Nsubsteps: 313
Duration of printed interval: 17.89991475596951
Total steps: 31300 plus t=0
Rb angular frequency scales [rad/s]:
------------------------------------
Reference omega_0          4.273e+10
Cavity frequency omega_c   2.415e+15
Coupling parameter g0      3.519e+06
Cavity freq. nu_Cavity (THz)     384.3


Frequency scales [units of \omega0]:
------------------------------------
omega_c/omega_0            5.652e+04
g/omega_0                  8.235e-05
Number of atoms N_a = 45.0
Energy/frequency scales [units of \omega0]:
----
Coupling in M. Schleier-Smith's Thesis: 8.235294117647058e-05
Coupling used in this simulation: 0.024705882352941175
Ratio of coupling with Schleier-Smith = gscale = 300.0
omega_clock = omega_0 = 1.0
Cavity mode, omegaC = 56521.95663650075
Excited state energy with respect to the mean frequency of up and down, omegaE = 56521.95663650075
Cavity detuning to mean value of the atomic transitions, delta_res = 0.0
omegaup = omega_0/2 = 0.5
Driving amplitude = epsilon = 0.02
Driving detuning = delta_p = 0.0
Cavity decay rate = kappa = 0.02

Adiabatic regime indicators:
Single photon omega_0^2 / (4*G^2) = 409.58049886621325
Multiphoton 2*G*sqrt(nC)/omega0 = 0.0

Stationary number of photons in uncoupled case = 4.0
Adiabatic frequency for 1 photon: wadiabatic1 = 4 G^2/omega0 = 0.0024415224913494804
Adiabatic frequency for initial photons: wadiabatic = 4 nC G^2/omega0 = 0.0
Adiabatic frequency for steady photons: wadiabatic = 4 nph0 G^2/omega0 = 0.009766089965397922
Adiabatic frequency for max photons: wadiabatic = 4 nphmax G^2/omega0 = 0.04394740484429065
Transmittance of cavity kappa = 0.02
Effective kappa for adiabatic cavity removal = 0.004768825660612299
Inverse expected optimal time = 0.014382787856021456
Expected optimal time = 69.52754987492519

Relevant periods:
Adiabatic period for 1 photon 2pi/wadiabatic1 = 2573.470172583476
Adiabatic period with initial photons 2pi/wadiabatic = inf
Adiabatic period with steady photons 2pi/wadiabatic = 643.367543145869
Adiabatic period for \sigma_x = 2pi/(2*wadiabatic) = inf
Clock period = 2*pi/omega0 = 6.283185307179586
Up period = 2*pi/omegaup = 12.566370614359172
Cavity period = 2*pi/omegaC = 0.00011116361996431721 (not relevant if using rotating frame of the cavity)
Coupling period = 2*pi/G = 254.3194052906023
Detuning period = 2*pi/delta_res = inf
Driving amplitude period= 2*pi/epsilon = 314.1592653589793
Driving detuning period= 2*pi/delta_p = inf
Coherence period= 2pi/kappa = 314.1592653589793

Forcing 40 CPUs
Simulation time: 230.54 seconds
