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Here a list of all the properties present in the database is given. Following the link associated to the property name you can view the properties details and the set of datafiles associated with the property.

name tensor dimensions units units detail
dielectric permittivity relative epsrij 3,3 1 pure number
dielectric permittivity relative epsrijS 3,3 1 pure number
dielectric permittivity relative epsrijT 3,3 1 pure number
dielectric stiffness relative betrijS 3,3 10^-4 pure number
dielectric stiffness relative betrijT 3,3 10^-4 pure number
elastic TOEC stiffness cijk 6,6,6 GPa giga Pascal
elastic compliance sij 6,6 10^-12.Pa^-1 pico Pascal^-1
elastic compliance sijD 6,6 10^-12.Pa^-1 pico Pascal^-1
elastic compliance sijE 6,6 10^-12.Pa^-1 pico Pascal^-1
elastic stiffness cij 6,6 GPa giga Pascal
elastic stiffness cijD 6,6 GPa giga Pascal
elastic stiffness cijE 6,6 GPa giga Pascal
elastic stiffness cijS 6,6 GPa giga Pascal
electric charge carrier concentration n 0 10^19 cm-3 atoms per cubic centimetre
electric coercive field Eci 3 kV.cm^-1 kilovolts per centimetre
electric remnant polarisation Pri 3 10^-6 Ohm.cm^-2 micro Ohm per square centimetre
electric resistivity rhoeij 3,3 10^-6 Ohm.cm micro Ohm per centimetre
electromechanical coupling kij 3,6 1 pure number
electrooptic rijkS 3,3,3 10^-12.m.V parts per trillion metres volts
electrooptic rijkT 3,3,3 10^-12.m.V parts per trillion metres volts
electrostriction Dij 6,6 10^-20.m^2.V^-2 and m^4.C 10^-20.m^2V^-2 and m^4.C^-2
electrostriction Dprimeij 6,6 10^-20.m^2.V^-2 and m^4.C 10^-20.m^2V^-2 and m^4.C^-2
heat capacity C 0 Jg^-1K^-1 joules per gram per kelvin
internal friction Qij-1 6,6 10^-4 pure number
magnetic antiferromagnetic ordering temperature Neel 0 K kelvin
magnetic paramagnetic critical temperature Neel 0 K kelvin
magnetic paramagnetic critical temperature Neel transitionwidth 0 K kelvin
optical index extraordinary ne 0 1 pure number
optical index ordinary no 0 1 pure number
optical index principal Ni 0 1 pure number
photoelastic pij 6,6 1 pure number
photoelastic pijE 0 1 pure number
piezoelectric dij 3,6 m.V^-1 meter per volt
piezoelectric eij 3,6 C.N^-1 coulomb per newton
piezoelectric gij 3,6 C.m^-2 coulomb oer square metre
piezoelectric hij 3,6 V.m.N^-1 volt metre per newton
piezooptic piij 6,6 MPa^-1 one over mega Pascal
residual resistivity ratio 0 1 pure number
residual resistivity ratio high temperature 0 K kelvin
residual resistivity ratio low temperature 0 K kelvin
superconducting coherence length ksii 3 nm nanometre
superconducting critical field1 Hc1i 3 T tesla
superconducting critical field2 Hc2i 3 T tesla
superconducting critical temperature mid 50 0 K kelvin
superconducting critical temperature offset 10 0 K kelvin
superconducting critical temperature onset 0 K kelvin
superconducting critical temperature onset 90 0 K kelvin
superconducting critical temperature thermodynamic 0 K kelvin
superconducting irreversibility field Hirri 3 T tesla
superconducting penetration depth lambdai 3 nm nanometre
superconducting resistivity transition width 0 K kelvin
superconducting zero resistivity temperature 0 K kelvin
thermal conductivity kappaij 3,3 W.K^-1.m^-1 watt per kelvin per metre
thermal diffusivity kappadij 3,3 m^2.s^-1 metre squared per second
thermal expansion Tij 6,6 MPa.K^-1 megapascal per kelvin
thermal expansion alphaij 3,3 10^-6.K^-1 parts per million per kelvin
thermoelastic compliance 1storder sij1T 6,6 10^-6.K^-1 parts per million per kelvin
thermoelastic compliance 2ndorder sij2T 6,6 10^-9.K^-1 parts per million per kelvin
thermoelastic compliance 3rdorder sij3T 6,6 10^-12.K^-1 parts per million per kelvin
thermoelectric Seebeck Seij 3,3 10^-6.V.K^-1 parts per million volts per kelvin
elastic stiffness hydrostaticpressure 1storder cij1P 6,6 GPa^-1 giga Pascal
elastic stiffness hydrostaticpressure 2ndorder cij2P 6,6 GPa^-1 giga Pascal
elastic compliance sijS 6,6 10^-12.Pa^-1 pico Pascal^-1
optical index ni 0 1 pure number
superconducting critical current density Jci 0 Am^-2 ampere per square metre
superconducting critical temperature 0 K kelvin
hydrostatic pressure range begin 0 GPa giga Pascal
hydrostatic pressure range end 0 GPa giga Pascal
reference hydrostatic pressure 0 GPa giga Pascal
heat capacity Cp 0 Jmol^-1K^-1 joule per kelvin mole
thermoelasticstiffness 1storder cijS1T 6,6 10^-6.K^-1 parts per million per kelvin
thermoelasticstiffness 2ndorder cijS2T 6,6 10^-9.K^-2 parts per million per square kelvin
RRR 0
thermal expansion alphaijT0 3,3 10^-6.K^-1 parts per million per kelvin
thermal expansion alphaijT 3,3 10^-6.K^-1 parts per million per kelvin
magnetoelectric MEalphaij 3,3 10^-12 s m^-1
magnetocrystalline anisotropy k1, k2 2,2 10^4 J.m^-3 joule.meter.^-3
magnetostriction lambda 100, lambda 111 00 ppm parts per million