README.txt ========== Archive prepared by Nadine Meyer, Institute of Photonic Sciences , nmeyer@icfo.net, August 2020 This collection contains datasets which were used in the following publication: Resolved-Sideband Cooling of a Levitated Nanoparticle in the Presence of Laser Phase Noise Nadine Meyer, Andrés de los Rios Sommer, Pau Mestres, Jan Gieseler, Vijay Jain, Lukas Novotny, and Romain Quidant Phys. Rev. Lett. 123, 153601 – Published 8 October 2019 The files are in the csv format and their names and descriptions are enclosed below. Further details of data analysis methods and relevant parameters can be found in the main and supplementary texts of the publication. fig2_a_data.csv : CSV file contains postprocessed data for each point used in the colour plot, representing the displacement power spectral density Sxx versus frequency f for pressures = [p1=0.3 , p2=3e-3, p3=2e-5, p4=3e-7]mbar. The data is comma seperated as f[p1],Sxx[p1],f[p2],Sxx[p1],f[p2],Sxx[p1],f[p2],Sxx[p1] where f is given in kHz and Sxx in m^2. fig2_b_data.csv : CSV file contains postprocessed data for each point used in the colour plot, representing the centre of mass temperature (= relative area of Sxx) versus pressure as [p(mbar), T_cm(K), T_cm_error(K)]. fig2_b_theory_Sphi_nonzero.csv : CSV file contains postprocessed data for each point used in the colour plot, representing the theoretical prediction given in the manuscript and supplementary material with phase noise equal to zero based on the measured pressure and cavity output power [p(mbar), cav_output(W), T_cm_theory(K)]. fig2_b_theory_Sphi_zero.csv : CSV file contains postprocessed data for each point used in the colour plot, representing the theoretical prediction given in the manuscript and supplementary material with non-zero phase noise based on the measured pressure and cavity output power [p(mbar), cav_output(W), T_cm_theory(K)]. ======================================================================================================================================================================================================================================================================================================================================== fig3_a_data.csv : CSV file contains postprocessed data for each point used in the colour plot, representing the centre of mass temperature (= relative area of Sxx) versus laser detuning as [Delta(kHz), T_cm(K), T_cm_error(K)] at an cavity input power of P_in = 4mW at high pressure p = 0.6mbar. fig3_a_theory_Sphi_nonzero.csv : CSV file contains postprocessed data for each point used in the colour plot, representing the theoretical prediction given in the manuscript and supplementary material with phase noise equal to zero based on the measured pressure and cavity output power [Delta(kHz), cav_output(W), T_cm_theory(K)]. fig3_a_theory_Sphi_zero.csv : CSV file contains postprocessed data for each point used in the colour plot, representing the theoretical prediction given in the manuscript and supplementary material with non-zero phase noise based on the measured pressure and cavity output power [Delta(kHz), cav_output(W), T_cm_theory(K)]. fig3_b_data.csv : CSV file contains postprocessed data for each point used in the colour plot, representing the centre of mass temperature (= relative area of Sxx) versus laser detuning as [Delta(kHz), T_cm(K), T_cm_error(K)] at an cavity input power of P_in = 15mW at high pressure p = 0.6mbar. fig3_b_theory_Sphi_nonzero.csv : CSV file contains postprocessed data for each point used in the colour plot, representing the theoretical prediction given in the manuscript and supplementary material with phase noise equal to zero based on the measured pressure and cavity output power [Delta(kHz), cav_output(W), T_cm_theory(K)]. fig3_b_theory_Sphi_zero.csv : CSV file contains postprocessed data for each point used in the colour plot, representing the theoretical prediction given in the manuscript and supplementary material with non-zero phase noise based on the measured pressure and cavity output power [Delta(kHz), cav_output(W), T_cm_theory(K)]. fig3_c_data.csv : CSV file contains postprocessed data for each point used in the colour plot, representing the centre of mass temperature (= relative area of Sxx) versus laser detuning as [Delta(kHz), T_cm(K), T_cm_error(K)] at an cavity input power of P_in = 45mW at high pressure p = 0.6mbar. fig3_c_theory_Sphi_nonzero.csv : CSV file contains postprocessed data for each point used in the colour plot, representing the theoretical prediction given in the manuscript and supplementary material with phase noise equal to zero based on the measured pressure and cavity output power [Delta(kHz), cav_output(W), T_cm_theory(K)]. fig3_c_theory_Sphi_zero.csv : CSV file contains postprocessed data for each point used in the colour plot, representing the theoretical prediction given in the manuscript and supplementary material with non-zero phase noise based on the measured pressure and cavity output power [Delta(kHz), cav_output(W), T_cm_theory(K)]. fig3_d_data.csv : CSV file contains postprocessed data for each point used in the colour plot, representing the centre of mass temperature (= relative area of Sxx) versus cavity input power at optimal detuning delta as [power(mW), T_cm(K), T_cm_error(K)] at high pressure p = 0.6mbar. fig3_d_theory_Sphi_nonzero.csv : CSV file contains postprocessed data for each point used in the colour plot, representing the theoretical prediction given in the manuscript and supplementary material with phase noise equal to zero based on the measured pressure and cavity output power [power(mW), cav_output(W), T_cm_theory(K)]. fig3_d_theory_Sphi_zero.csv : CSV file contains postprocessed data for each point used in the colour plot, representing the theoretical prediction given in the manuscript and supplementary material with non-zero phase noise based on the measured pressure and cavity output power [power(mW), cav_output(W), T_cm_theory(K)]. ======================================================================================================================================================================================================================================================================================================================================== fig3_e_data.csv : CSV file contains postprocessed data for each point used in the colour plot, representing the centre of mass temperature (= relative area of Sxx) versus laser detuning as [Delta(kHz), T_cm(K), T_cm_error(K)] at an cavity input power of P_in = 0.07mW at low pressure p = 3e-7mbar. fig3_e_theory_Sphi_nonzero.csv : CSV file contains postprocessed data for each point used in the colour plot, representing the theoretical prediction given in the manuscript and supplementary material with phase noise equal to zero based on the measured pressure and cavity output power [Delta(kHz), cav_output(W), T_cm_theory(K)]. fig3_e_theory_Sphi_zero.csv : CSV file contains postprocessed data for each point used in the colour plot, representing the theoretical prediction given in the manuscript and supplementary material with non-zero phase noise based on the measured pressure and cavity output power [Delta(kHz), cav_output(W), T_cm_theory(K)]. fig3_f_data.csv : CSV file contains postprocessed data for each point used in the colour plot, representing the centre of mass temperature (= relative area of Sxx) versus laser detuning as [Delta(kHz), T_cm(K), T_cm_error(K)] at an cavity input power of P_in = 1.5mW at low pressure p = 3e-7mbar. fig3_f_theory_Sphi_nonzero.csv : CSV file contains postprocessed data for each point used in the colour plot, representing the theoretical prediction given in the manuscript and supplementary material with phase noise equal to zero based on the measured pressure and cavity output power [Delta(kHz), cav_output(W), T_cm_theory(K)]. fig3_f_theory_Sphi_zero.csv : CSV file contains postprocessed data for each point used in the colour plot, representing the theoretical prediction given in the manuscript and supplementary material with non-zero phase noise based on the measured pressure and cavity output power [Delta(kHz), cav_output(W), T_cm_theory(K)]. fig3_g_data.csv : CSV file contains postprocessed data for each point used in the colour plot, representing the centre of mass temperature (= relative area of Sxx) versus laser detuning as [Delta(kHz), T_cm(K), T_cm_error(K)] at an cavity input power of P_in = 4mW at low pressure p = 3e-7mbar. fig3_g_theory_Sphi_nonzero.csv : CSV file contains postprocessed data for each point used in the colour plot, representing the theoretical prediction given in the manuscript and supplementary material with phase noise equal to zero based on the measured pressure and cavity output power [Delta(kHz), cav_output(W), T_cm_theory(K)]. fig3_g_theory_Sphi_zero.csv : CSV file contains postprocessed data for each point used in the colour plot, representing the theoretical prediction given in the manuscript and supplementary material with non-zero phase noise based on the measured pressure and cavity output power [Delta(kHz), cav_output(W), T_cm_theory(K)]. fig3_h_data.csv : CSV file contains postprocessed data for each point used in the colour plot, representing the centre of mass temperature (= relative area of Sxx) versus cavity input power at optimal detuning delta as [power(mW), T_cm(K), T_cm_error(K)] at low pressure p = 3e-7mbar. fig3_h_theory_Sphi_nonzero.csv : CSV file contains postprocessed data for each point used in the colour plot, representing the theoretical prediction given in the manuscript and supplementary material with phase noise equal to zero based on the measured pressure and cavity output power [power(mW), cav_output(W), T_cm_theory(K)]. fig3_h_theory_Sphi_zero.csv : CSV file contains postprocessed data for each point used in the colour plot, representing the theoretical prediction given in the manuscript and supplementary material with non-zero phase noise based on the measured pressure and cavity output power [power(mW), cav_output(W), T_cm_theory(K)]. ======================================================================================================================================================================================================================================================================================================================================== fig4_a_data.csv : CSV file contains postprocessed data for each point used in the colour plot, representing the centre of mass temperature (= relative area of Sxx) versus position inside the cavity as [position(m), T_cm(K), T_cm_error(K)] at an intracavity power of P_intra = 1W at high pressure p = 0.6mbar. fig4_a_theory_Sphi_nonzero.csv : CSV file contains postprocessed data for each point used in the colour plot, representing the theoretical prediction given in the manuscript and supplementary material with phase noise equal to zero based on the measured pressure and cavity output power [position(m), cav_output(W), T_cm_theory(K)]. fig4_a_theory_Sphi_zero.csv : CSV file contains postprocessed data for each point used in the colour plot, representing the theoretical prediction given in the manuscript and supplementary material with non-zero phase noise based on the measured pressure and cavity output power [position(m), cav_output(W), T_cm_theory(K)]. ======================================================================================================================================================================================================================================================================================================================================== fig4_b_data.csv : CSV file contains postprocessed data for each point used in the colour plot, representing the centre of mass temperature (= relative area of Sxx) versus position inside the cavity as [position(m), T_cm(K), T_cm_error(K)] at an intracavity power of P_intra = 5mW at pressure p = 3e-7mbar. fig4_b_theory_Sphi_nonzero.csv : CSV file contains postprocessed data for each point used in the colour plot, representing the theoretical prediction given in the manuscript and supplementary material with phase noise equal to zero based on the measured pressure and cavity output power [position(m), cav_output(W), T_cm_theory(K)]. fig4_b_theory_Sphi_zero.csv : CSV file contains postprocessed data for each point used in the colour plot, representing the theoretical prediction given in the manuscript and supplementary material with non-zero phase noise based on the measured pressure and cavity output power [position(m), cav_output(W), T_cm_theory(K)]. fig4_c_data.csv : CSV file contains postprocessed data for each point used in the colour plot, representing the centre of mass temperature (= relative area of Sxx) versus position inside the cavity as [position(m), T_cm(K), T_cm_error(K)] at an intracavity power of P_intra = 20W at pressure p = 3e-7mbar. fig4_c_theory_Sphi_nonzero.csv : CSV file contains postprocessed data for each point used in the colour plot, representing the theoretical prediction given in the manuscript and supplementary material with phase noise equal to zero based on the measured pressure and cavity output power [position(m), cav_output(W), T_cm_theory(K)]. fig4_c_theory_Sphi_zero.csv : CSV file contains postprocessed data for each point used in the colour plot, representing the theoretical prediction given in the manuscript and supplementary material with non-zero phase noise based on the measured pressure and cavity output power [position(m), cav_output(W), T_cm_theory(K)]. fig4_d_data.csv : CSV file contains postprocessed data for each point used in the colour plot, representing the centre of mass temperature (= relative area of Sxx) versus position inside the cavity as [position(m), T_cm(K), T_cm_error(K)] at an intracavity power of P_intra = 172mW at pressure p = 3e-7mbar. fig4_d_theory_Sphi_nonzero.csv : CSV file contains postprocessed data for each point used in the colour plot, representing the theoretical prediction given in the manuscript and supplementary material with phase noise equal to zero based on the measured pressure and cavity output power [position(m), cav_output(W), T_cm_theory(K)]. fig4_d_theory_Sphi_zero.csv : CSV file contains postprocessed data for each point used in the colour plot, representing the theoretical prediction given in the manuscript and supplementary material with non-zero phase noise based on the measured pressure and cavity output power [position(m), cav_output(W), T_cm_theory(K)].