Research Data for "Wide and tunable spectral asymmetry between narrow and wide facet outputs in a tapered quantum-dot superluminescent diode"

Dataset

Description

Data files for figures included in paper.
Light-Current Characteristics - Figure 1(a)
Rear Over Front Facet Output Power vs Front Section Current - Figure 1(b)
Front and Rear Facet Optical Spectra at 0.1 A of Rear Section Current - Figure 2
Front and Rear Facet Peak Wavelength Difference vs Front and Rear Section Current Density Difference - Figure 3(a)
Front Facet Peak Wavelength vs Current Density - Figure 3(b)
Rear Facet Peak Wavelength vs Current Density - Figure 3(c)
QD Material Density of States - Figure 5
Comparison of Simulated and Measured Light-Current Characteristics - Figure 6
Simulated Front and Rear Facet Optical Spectra at 0.1,1.0 A of Rear,Front Section Current - Figure 7(a)
Occupation probabilities close to the front facet at 0.1,1.0 A of Rear,Front Section Current - Figure 7(b)
Occupation probabilities close to the rear facet at 0.1,1.0 A of Rear,Front Section Current - Figure 7(c)
Net Modal Gain at 0.1,1.0 A of Rear,Front Section Current - Figure 7(d)
Evolution of the number of photons propagating in the forward and backward directions at 1250 nm (green) and 1275 nm at 0.1,1.0 A of Rear,Front Section Current - Figure 7(e)
Simulated Front and Rear Facet Optical Spectra at 0.1,3.5 A of Rear,Front Section Current - Figure 8(a)
Occupation probabilities close to the front facet at 0.1,3.5 A of Rear,Front Section Current - Figure 8(b)
Occupation probabilities close to the rear facet at 0.1,3.5 A of Rear,Front Section Current - Figure 8(c)
Net Modal Gain at 0.1,3.5 A of Rear,Front Section Current - Figure 8(d)
Evolution of the number of photons propagating in the forward and backward directions at 1210 nm (green) and 1240 nm at 0.1,3.5 A of Rear,Front Section Current - Figure 8(e)
Date made available6 Jan 2020
PublisherHeriot-Watt University
Date of data production19 Sep 2013 - 19 Mar 2018

Cite this

Forrest, A. (Creator), Cataluna, M. A. (Creator) (6 Jan 2020). Research Data for "Wide and tunable spectral asymmetry between narrow and wide facet outputs in a tapered quantum-dot superluminescent diode". Heriot-Watt University. Evolution_of_Number_of_Photons_Propagating_in_the_forward_and_backward_directions_at_1210_nm_and_1240_nm_at_0(.xlsx), Comparison_of_Simulated_and_Measured_Light_Current_Characteristics_Figure_6(.xlsx), Evolution_of_Number_of_Photons_Propagating_in_the_forward_and_backward_directions_at_1250_nm_and_1275_nm_at_0(.xlsx), Front_and_Rear_Facet_Optical_Spectra_at_0(.xlsx), Front_and_Rear_Facet_Peak_Wavelength_Difference_vs_Front_and_Rear_Section_Current_Density_Difference_Figure_3_a_(.xlsx), Front_Facet_Peak_Wavelength_vs_Current_Density_Figure_3_b_(.xlsx), Light_Current_Characteristics_Figure_1_a_(.xlsx), Net_Modal_Gain_at_0(.xlsx), Net_Modal_Gain_at_0(.xlsx), Occupation_Proobabilities_close_to_the_front_facet_at_0(.xlsx), Occupation_Proobabilities_close_to_the_front_facet_at_0(.xlsx), Occupation_Proobabilities_close_to_the_rear_facet_at_0(.xlsx), Occupation_Proobabilities_close_to_the_rear_facet_at_0(.xlsx), QD_Material_Density_of_States_Figure_5(.xlsx), Rear_Facet_Peak_Wavelength_vs_Current_Density_Figure_3_c_(.xlsx), Rear_over_Front_Facet_Output_Power_vs_Front_Section_Current_Figure_1_b_(.xlsx), Simulated_Front_and_Rear_Facet_Optical_Spectra_at_0(.xlsx), Simulated_Front_and_Rear_Facet_Optical_Spectra_at_0(.xlsx). 10.17861/e9612d0f-38ff-4c76-a0c4-91db32a37d45