Quantum encryption communication apparatus, quantum encryption communication method, and quantum encryption communication system

What is claimed is: 1. A quantum encryption communication apparatus of a transmission side which performs a communication process with a receiving apparatus based on quantum encryption, comprising: a light source unit which generates a light pulse; a polarization modulating unit which performs polarization modulation of the light pulse by using a variable wavelength plate; a controller which drives the variable wavelength plate to convert a polarization state of the light pulse to one of a plurality of predetermined polarization bases at random by generating a random number and supplying the random number to the polarization modulating unit, wherein the controller drives the variable wavelength plate at random based on the generated random number so that a phase difference occurring in polarization components along a FAST axis and a SLOW axis is one of 0 degrees, 90 degrees, 180 degrees, and 270 degrees according to a time point of an arrival of the light pulse, wherein the polarization modulating unit emits the light pulse with the polarization state converted to the one of the plurality of polarization bases to the receiving apparatus; and a communication unit which receives from the receiving apparatus a detection result identifying the polarization state, of the emitted light pulse, detected in the receiving apparatus, wherein the polarization state includes at least one of: two types of linear polarizations and the two types of circular polarizations according to the Bennett-Brassard-84 (BB84) protocol; four types of linear polarizations according to the Bennett-Brassard-84 (BB84) protocol; and four types of linear polarizations and the two types of circular polarizations according to an extension of the Bennett-Brassard-84 (BB84) protocol. 2. The quantum encryption communication apparatus according to claim 1 , wherein a liquid crystal retarder is used as the variable wavelength plate. 3. The quantum encryption communication apparatus according to claim 2 , wherein a polarizer is integrally disposed in a light pulse incidence surface side of the liquid crystal retarder. 4. The quantum encryption communication apparatus according to claim 3 , wherein a second liquid crystal retarder of which an optical axis is tilted by 45 degrees with respect to an optical axis of the liquid crystal retarder is disposed in an emitting surface side of the liquid crystal retarder. 5. The quantum encryption communication apparatus according to claim 3 , wherein an intensity modulator is disposed between the polarizer and the liquid crystal retarder. 6. The quantum encryption communication apparatus according to claim 5 , wherein the intensity modulator is configured with a liquid crystal retarder and a polarizer. 7. A quantum encryption communication method of a quantum encryption communication apparatus of a transmission side which performs a communication process with a receiving apparatus based on quantum encryption, comprising: generating, by a light source unit, a light pulse; performing polarization modulation of the light pulse by using a variable wavelength plate; driving, by a controller, the variable wavelength plate to convert a polarization state of the light pulse to one of a plurality of predetermined polarization bases at random by generating a random number and supplying the random number to the variable wavelength plate, emitting the light pulse with the polarization state converted to the one of the plurality of polarization bases to the receiving apparatus; and receiving, from the receiving apparatus, a detection result identifying the polarization state, of the emitted light pulse, detected in the receiving apparatus, wherein the driving includes driving the variable wavelength plate at random based on the generated random number so that a phase occurring in polarization components along a FAST axis and a SLOW axis is one of 0 degrees, 90 degrees, 180 degrees, and 270 degrees according to a time point of an arrival of the light pulse, wherein the polarization state includes at least one of: two types of linear polarizations and the two types of circular polarizations according to the Bennett-Brassard-84 (BB84) protocol; four types of linear polarizations according to the Bennett-Brassard-84 (BB84) protocol; and four types of linear polarizations and the two types of circular polarizations according to an extension of the Bennett-Brassard-84 (BB84) protocol. 8. A quantum encryption communication system which performs a communication process based on quantum encryption, the quantum encryption communication system including: a quantum encryption communication apparatus of a transmission side; and a quantum encryption communication apparatus of a reception side; wherein the quantum encryption communication apparatus of the transmission side includes: a light source unit which generates a light pulse; a polarization modulating unit which performs polarization modulation of the light pulse by using a variable wavelength plate and emits the polarization- modulated light pulse to a communication line; a controller which drives the variable wavelength plate to convert a polarization state of the light pulse to one of a plurality of predetermined polarization bases at random by generating a random number and supplying the random number to the polarization modulating unit, wherein the controller drives the variable wavelength plate at random based on the generated random number so that a phase difference occurring in polarization components along a FAST axis and a SLOW axis is one of 0 degrees, 90 degrees, 180 degrees, and 270 degrees according to a time point of an arrival of the light pulse, wherein the polarization modulating unit emits the light pulse with the polarization state converted to the one of the plurality of polarization bases to the quantum encryption communication apparatus of the reception side, and a communication unit which receives from the quantum encryption communication apparatus of the reception side a detection result identifying the polarization state, of the emitted light pulse, detected in the quantum encryption communication apparatus of the reception side, wherein the polarization state includes at least one of: two types of linear polarizations and the two types of circular polarizations according to the Bennett-Brassard-84 (BB84) protocol; four types of linear polarizations according to the Bennett-Brassard-84 (BB84) protocol; and four types of linear polarizations and the two types of circular polarizations according to an extension of the Bennett-Brassard-84 (BB84) protocol; and wherein the quantum encryption communication apparatus of the reception side includes: an optical unit which distributes the light pulse emitted from the quantum encryption communication apparatus of the transmission side to each polarization basis; and a light-receiving unit which detects the light pulse, which is distributed to each of the polarization bases, with respect to each of the polarization bases, and detects the polarization state of the emitted light pulse received from the quantum encryption communication apparatus of the transmission side. 9. The quantum encryption communication apparatus according to claim 1 , wherein if the phase difference is set to 0 degrees, the light pulse passing through the variable wavelength plate is vertically polarized. 10. The quantum encryption communication apparatus according to claim 1 , wherein if the phase difference is set to 90 degrees, the light pulse passing through the variable wavelength plate is left-handed circular polarized. 11. The quantum encryption communication apparatus according to cla