#wvlen = wvc ########## Sine source #smth = source.Smoothing(dt, 1000) #src1 = source.Sine(dt, np.float64) #wvlen = 250*nm #src1.set_wvlen(wvlen) ########## Harmonic source #smth = source.Smoothing(dt, 1000) #src1 = source.Harmonic(dt) #wvlen = 250*nm #src1.set_wvlen(wvlen) ########## Delta source src1 = source.Delta(10) src2 = source.Delta(30) src3 = source.Delta(40) src4 = source.Delta(80) #wvlen = Lz/2 ########## Momentum of the source. wvlen = float(sys.argv[1]) * nm k0 = 2 * np.pi / wvlen phi, theta = 0 * np.pi / 180, 90 * np.pi / 180 # mmt for plane wave normal to x axis # phi is the angle between k0 vector and xz-plane. # theta is the angle between k0cos(phi) and x-axis. #kx = k0 * np.cos(phi) * np.cos(theta) #ky = k0 * np.sin(phi)
#wvlen = wvc ########## Sine source #smth = source.Smoothing(dt, 1000) #src1 = source.Sine(dt, np.float64) #wvlen = 250*nm #src1.set_wvlen(wvlen) ########## Harmonic source #smth = source.Smoothing(dt, 1000) #src1 = source.Harmonic(dt) #wvlen = 250*nm #src1.set_wvlen(wvlen) ########## Delta source src1 = source.Delta(10) src2 = source.Delta(20) src3 = source.Delta(50) src4 = source.Delta(30) #wvlen = Lz/2 ########## Momentum of the source. #wvlen = float(sys.argv[1])*nm #k0 = 2*np.pi / wvlen #phi, theta = 0*np.pi/180, 0*np.pi/180 # mmt for plane wave normal to x axis. # phi is the angle between k0 vector and xz-plane. # theta is the angle between k0cos(phi) and x-axis. #kx = k0 * np.cos(phi) * np.cos(theta) #ky = k0 * np.sin(phi)
#wvlen = wvc ########## Sine source #smth = source.Smoothing(dt, 1000) #src1 = source.Sine(dt, np.float64) #wvlen = 250*nm #src1.set_wvlen(wvlen) ########## Harmonic source #smth = source.Smoothing(dt, 1000) #src1 = source.Harmonic(dt) #wvlen = 250*nm #src1.set_wvlen(wvlen) ########## Delta source src1 = source.Delta(10) #src2 = source.Delta(20) #src3 = source.Delta(50) #src4 = source.Delta(30) #wvlen = Lz/2 ########## Plane wave normal to x-axis. setter1 = source.Setter(TF, (70 * nm, 0, 0), (70 * nm + dx, Ly, Lz), mmt) #setter2 = source.Setter(TF, (0, 150*nm, 0), (Lx, 150*nm+dy, Lz), mmt) #setter3 = source.Setter(TF, (0, 250*nm, 0), (Lx, 250*nm+dy, Lz), mmt) #setter4 = source.Setter(TF, (0, 350*nm, 0), (Lx, 350*nm+dy, Lz), mmt) ########## Plane wave normal to y-axis. #setter1 = source.Setter(TF, (0, 200*nm, 0), (Lx, 200*nm+dy, Lz), mmt) #setter2 = source.Setter(TF, (0, 150*nm, 0), (Lx, 150*nm+dy, Lz), mmt) #setter3 = source.Setter(TF, (0, 250*nm, 0), (Lx, 250*nm+dy, Lz), mmt)
