

STX1b_DRY_TEMP_220.mat: This file contains data represented in Figure 3.

            f: is the frequency (Hz) 
            dato_a: is the complex permittivity measured during the warming cycle
			dato_d: is the complex permittivity measured during the cooling cycle
			dato_ra: is the complex permittity of empty probe (air) measured during the warming cycle
			dato_rd: is the complex permittity of empty probe (air) measured during the cooling cycle
			ddato_a: is the uncertainty of the complex permittivity measured during the warming cycle
			ddato_d: is the uncertainty of the complex permittivity measured during the cooling cycle
			ddato_ra: is the uncertainty of the complex permittity of empty probe (air) measured during the warming cycle
			ddato_rd: is the uncertainty of the complex permittity of empty probe (air) measured during the cooling cycle

STX1b_SAT_TEMP_230.mat: This file contains data represented in Figure 4.

			f: is the frequency (Hz)
            dato_a: is the complex permittivity measured during the warming cycle
			dato_d: is the complex permittivity measured during the cooling cycle
			dato_ra: is the complex permittity of empty probe (air) measured during the warming cycle
			dato_rd: is the complex permittity of empty probe (air) measured during the cooling cycle
			ddato_a: is the uncertainty of the complex permittivity measured during the warming cycle
			ddato_d: is the uncertainty of the complex permittivity measured during the cooling cycle
			ddato_ra: is the uncertainty of the complex permittity of empty probe (air) measured during the warming cycle
			ddato_rd: is the uncertainty of the complex permittity of empty probe (air) measured during the cooling cycle

STX1b_SAT_COOLING_CYCLE.mat: This file contains data represented in Figure 5 and Figure 6; the only variable is eps_cool that is a matlab structure and in turns contains:

		    eps_cool.f: is the frequency (Hz)
			eps_cool.T: is the temperature expressed in kelvin inside the sample
			eps_cool.cp: is a matrix containing the complex permittivity as a function of frequency and temperature
			eps_cool.dcp: is the uncertainty of eps_cool.cp
			eps_cool.app: is the apparent permittivity at 4MHz as a function of temperature
			
STX1b_SAT_HEATING_CYCLE.mat: This file contains data represented in Figure 5 and Figure 6; the only variable is eps_cool that is a matlab structure and in turns contains:

		    eps_cool.f: is the frequency (Hz)
		    eps_cool.T: is the temperature expressed in kelvin inside the sample
			eps_cool.cp: is a matrix containing the complex permittivity as a function of frequency and temperature
			eps_cool.dcp: is the uncertainty of eps_cool.cp
			eps_cool.app: is the apparent permittivity at 4MHz as a function of temperature

T_eps_outside_slow.mat: This file contains the following variables (Figure 7):

			T_cool_outside: is the temperature during the cooling phase measured by the sensor outside the sample and inside the climatic chamber
			T_cool_inside: is the temperature during the cooling phase measured by the sensor inside the sample and inside the climatic chamber
			eps_app_cool_slow: apparent permittivity 

			

STX1b_SAT_FAST.mat:     This file contains data represented in Figure 8;


			T: is the temperature inside the sample expressed in kelvin
			T_CAMI: is the temperature outside the sample and inside the climatic chamber
			t_h: is the time in hours
			v_app: is the apparent permittivity at 4MHz
			inc_eps_app_d: is the uncertainty of v_app

Note that "NaN" are due to those values of imaginary parts of permittivity that are too small and, hence, not measureable. 
