Optical frequency division multiplexer and polarization control method

What is claimed is: 1. An optical frequency division multiplexer comprising: a nonlinear medium that multiplexes, on a carrier light beam, a signal light beam of a modulation signal that a carrier signal at a characteristic frequency is modulated with an information signal, cross-phase-modulates the carrier light beam with the signal light beam, frequency-multiplexes the information signal in the signal light beam on the carrier light beam, generates an optical frequency division multiplexed signal, and outputs the optical frequency division multiplexed signal; and a control unit that controls a polarization state of the signal light beam in a direction in which an intensity of a modulation component takes a maximum value, based on the intensity of the modulation component involved in a modulation signal at a desired characteristic frequency of the optical frequency division multiplexed signal when the intensity of the modulation component involved in the modulation signal at the desired characteristic frequency of the optical frequency division multiplexed signal is reduced beyond a predetermined threshold from a maximum value, wherein the control unit includes: an intensity converting unit that converts a part of the optical frequency division multiplexed signal into an intensity modulated signal; an optoelectric conversion unit that optoelectrically converts the converted intensity modulated signal; an extracting unit that extracts the modulation component involved in the modulation signal at the desired characteristic frequency of the optoelectrically converted intensity modulated signal; and an intensity detecting unit that detects the intensity of the extracted modulation component. 2. The optical frequency division multiplexer according to claim 1 , wherein when the intensity of the modulation component involved in the modulation signal at the desired characteristic frequency of the optical frequency division multiplexed signal is reduced beyond a predetermined threshold of 1.8 dB from a maximum value, the control unit controls the polarization state of the signal light beam. 3. The optical frequency division multiplexer according to claim 1 , wherein the control unit converts the polarization state of the signal light beam at an angle of 90 degrees to make a relative angle between the polarization state of the signal light beam and a polarization state of the carrier light beam within an angle of 45 degrees. 4. The optical frequency division multiplexer according to claim 1 , wherein: when the intensity of the modulation component involved in the modulation signal at the desired characteristic frequency of the optical frequency division multiplexed signal is reduced beyond a predetermined threshold from a maximum value, a receiving device that receives the optical frequency division multiplexed signal outputs a control signal; and when the control signal from the receiving device is detected, the control unit controls the polarization state of the signal light beam. 5. The optical frequency division multiplexer according to claim 4 , wherein when the modulation component involved in the modulation signal at the desired characteristic frequency is extracted in modulation components involved in modulation signals at a plurality of characteristic frequencies of the optical frequency division multiplexed signal, the optical frequency division multiplexed signal being cross-phase-modulated at optical frequency division multiplexers, and the intensity of the modulation component involved in the extracted modulation signal at the desired characteristic frequency is reduced beyond the predetermined threshold, the receiving device outputs the control signal to the control unit of the optical frequency division multiplexer in which cross phase modulation is performed with a signal light beam involved in the modulation signal at the desired characteristic frequency. 6. The optical frequency division multiplexer according to claim 5 , wherein the receiving device includes: an intensity converting unit that converts a part of the optical frequency division multiplexed signal into an intensity modulated signal; an optoelectric conversion unit that optoelectrically converts the converted intensity modulated signal; a first extracting unit that extracts the modulation component involved in modulation signals at characteristic frequencies of optoelectrically converted intensity modulated signals; a second extracting unit that extracts the modulation component involved in the modulation signal at the desired characteristic frequency in a plurality of the extracted modulation components; and a detecting unit that detects the intensity of the extracted modulation component. 7. The optical frequency division multiplexer according to claim 4 , wherein the control unit converts the polarization state of the signal light beam at an angle of 90 degrees to make a relative angle between the polarization state of the signal light beam and a polarization state of the carrier light beam within an angle of 45 degrees. 8. A polarization control method for an optical frequency division multiplexer, the method causing the optical frequency division multiplexer to execute processes of: multiplexing, on a carrier light beam, a signal light beam of a modulation signal that a carrier signal at a characteristic frequency is modulated with an information signal, cross-phase-modulating the carrier light beam with the signal light beam through a nonlinear medium, and frequency-multiplexing the information signal in the signal light beam on the carrier light beam to generate an optical frequency division multiplexed signal; and controlling a polarization state of the signal light beam in a direction in which an intensity of a modulation component takes a maximum value, based on the intensity of the modulation component involved in a modulation signal at a desired characteristic frequency of the optical frequency division multiplexed signal when the intensity of the modulation component involved in the modulation signal at the desired characteristic frequency of the optical frequency division multiplexed signal is reduced beyond a predetermined threshold from a maximum value, wherein the controlling includes: converting a part of the optical frequency division multiplexed signal into an intensity modulated signal; converting the converted intensity modulated signal optoelectrically; extracting the modulation component involved in the modulation signal at the desired characteristic frequency of the converted intensity modulated signal optoelectrically; and detecting the intensity of the extracted modulation component.