Thermophysical property measurement method and thermophysical property measurement apparatus

The invention claimed is: 1. A thermophysical property measurement method, comprising: a first step of applying a DC voltage or a DC current at both ends of a metal to which a temperature gradient is applied to measure a first temperature at a center of the metal; a second step of applying DC voltages or DC currents of different polarities at both ends of the metal to measure a second temperature at the center of the metal; a third step of calculating an average value of a difference between the first temperature and the second temperature; a fourth step of calculating an average value of a sum of the first temperature and the second temperature; a fifth step of calculating a Thomson coefficient of the metal by dividing a product of a magnitude of a current that flows through the metal, electrical resistance of the metal, and the average value of the difference by the average value of the sum and the difference between temperatures at the both ends of the metal; and a sixth step of calculating at least one of absolute thermoelectric power and thermal conductivity of the metal using the Thomson coefficient calculated in the fifth step. 2. A thermophysical property measurement apparatus, comprising: a voltage application unit that applies a DC voltage at both ends of a metal to which a temperature gradient is applied; a temperature measurement unit that measures a first temperature at a center of the metal when the DC voltage is applied by the voltage application unit and measures a second temperature at the center of the metal when DC voltages of different polarities are applied by the voltage application unit; and a thermophysical property calculation unit that, calculates an average value of a difference between the first temperature and the second temperature, calculates an average value of a sum of the first temperature and the second temperature, calculates a Thomson coefficient of the metal by dividing a product of a magnitude of a current that flows through the metal, electrical resistance of the metal, and the average value of the difference by the average value of the sum and the difference between temperatures at the both ends of the metal, and calculates at least one of absolute thermoelectric power and thermal conductivity of the metal using the Thomson coefficient calculated. 3. The thermophysical property measurement apparatus as claimed in claim 2 , the voltage application unit further comprising: a first DC power supply that applies the DC voltage of positive polarity to the metal; a second DC power supply that applies the DC voltage of negative polarity to the metal; and a switching unit that selectively connects one of the first DC power supply and the second DC power supply to the both ends of the metal. 4. The thermophysical property measurement apparatus as claimed in claim 2 , the thermophysical property measurement apparatus further comprising: two metal blocks that are connected to the both ends of the metal; and a temperature setting unit that sets the two metal blocks to different temperatures. 5. The thermophysical property measurement apparatus as claimed in claim 4 , the thermophysical property measurement apparatus further comprising: a thermocouple that measures a temperature of the metal blocks at parts of the metal blocks that are connected to the metal, wherein the temperature setting unit sets the temperature of the metal blocks in accordance with the temperature measured by the thermocouple.