
READ ME File For Dataset for 'The Thermal Phase Sensitivity of both Coated and Uncoated Standard and Hollow Core Fibers down to Cryogenic Temperatures'

Dataset DOI: 10.5258/SOTON/D1180

ReadMe Author: Radan Slavik, University of Southampton 

This dataset supports the publication:

W. ZHU, E.R. NUMKAM FOKOUA, A.A. TARANTA, Y. CHEN, T.D. BRADLEY, M.N. PETROVICH, F. POLETTI, M. ZHAO, D.J. RICHARDSON, and R. SLAVIK
The Thermal Phase Sensitivity of both Coated and Uncoated Standard and Hollow Core Fibers down to Cryogenic Temperatures , IEEE/OSA Journal of Lightwave Technology 


Uploaded Archive (ZIP) includes 16 data files that are purely numerical (.dat)


The figures are as follows:


Fig. 1:
Fig1a.dat 						Expected phase thermal sensitivity (rad/m/degC) over temperature (degC) for bare SMF-28 fibre
Fig1b.dat 						Expected phase thermal sensitivity (rad/m/degC) over temperature (degC) for bare Hollow Core fibre

Fig. 2:	
Fig2_CTE.dat						Coefficient of thermal expansion (relative) over temperature (degC) of a typical acrylate coating	
Fig2_YoungModulus.dat					Young's modulus (MPa) over temperature (degC) single-coating, primary coating, and secondary acrylate coatings, respecitvely

Fig. 3: 
Fig3_Calculated_ThermalPhaseSensitivity_SMF28.dat	Calculated themal phase senstitivity (rad/m/degC) over temperature (degC) for bare and coated SMF-28 fibre

Fig. 4:
Fig4_Calculated_ThermalPhaseSensitivity_HCF.dat		Calculated themal phase senstitivity (rad/m/degC) over temperature (degC) for bare and coated hollow core fibre

Fig.5:
Fig5b_Temp_with_Time.dat				Temperature (degC) over time (hours) of thermal chamber during the experiment

Fig.6:
Fig6_Interference_SMF28.dat				Detected output power (mV) over time (seconds) at the output of Mach-Zehnder interferometer with SMF-28 fibre

Fig. 7:
Fig7_Measured_and_Expected_bareSMF28.dat		Measured and expected thermal phase sensitivity (rad/m/degC) over temeprature (degC) for bare SMF-28 fibre

Fig.8:
Fig8_Calculated_and_measured_ThermalPhaseSensitivity_Coated_SMF28.dat
							Measured and expected thermal phase sensitivity (rad/m/degC) over temperature for dual-coated SMF-28 fibre

Fig. 9: 
Fig9_Measured_SMF28_BareCoatedJacketed.dat		Thermal phase sensitivity (rad/m/degC) over temperature (degC) of bare, dual-coated, and jacketed SMF-28 fibre.

Fig. 10:
Fig10_HCF_Interferogram.dat				Detected output power (mV) over time (seconds) at the output of Mach-Zehnder interferometer with hollow core fibre

Fig. 11:
Fig11_HCF_bare_sensitivity_Calc_Meas.dat		Measured and predicted thermal phase sensitivity (rad/m/degC) over temperature (degC) for bare hollow core fibre

Fig. 12:
Fig12_ThermalPhaseSensitivity_Coated_HCF.dat		Measured and predicted thermal phase sensitivity (rad/m/degC) over temperature (degC) for coated hollow core fibre and predicted data for bare hollow core fibre

Fig. 13:
Fig13_Measured_ThermalPhaseSensitivity_Coated_Jacketed_SMF28.dat
							Predicted thermal phase sensitivity (rad/m/degC) over temperature (degC) for thin coated SMF-28e fibre and measured data for standard-coated and bare SMF-28 fibre

Fig. 14:
Fig14_ThinCoating_HCF.dat				Predicted thermal phase sensitivity (rad/m/degC) over temperature (degC) for thin coated hollow core fibre with coating of 12.5, 25, and 35 um thick and measured data standard-coated hollow core fibre



Date of data collection: 1/9/2017-1/11/2018

Information about geographic location of data collection: University of Southampton, U.K.

Licence: reative Commons Attribution.

Related projects:
Airguide, RAEng Senior Research Fellowship, Lightpipe


Date that the file was created: 12 December, 2019


