Optical frequency shifter, single sideband modulator, and light insertion and branch apparatus

What is claimed is: 1. An optical frequency shifter comprising: a splitter configured to branch a first optical signal having a first frequency component; a first mutual phase modulator configured to generate a second optical signal having a second frequency component and a third optical signal having a third frequency component with mutual phase modulation of the first optical signal and a first optical beat signal having a desired frequency interval; a first phase converter configured to change a phase of an output of the first mutual phase modulator so as to be different from the second optical signal and the third optical signal; a second mutual phase modulator configured to generate the second optical signal and the third optical signal with mutual phase modulation of an output signal of the first phase converter and a second optical beat signal having a desired frequency interval; and a combiner configured to interfere between an output of the second mutual phase modulator and another optical signal obtained by branching of the splitter. 2. The optical frequency shifter according to claim 1 , further comprising: a third mutual phase modulator configured to generate the second optical signal and the third optical signal with mutual phase modulation on a branched signal, other than the first optical signal, branched by the splitter and the first optical beat signal; a second phase converter configured to change a phase of an output of the third mutual phase modulator so as to be different from the second optical signal and the third optical signal; and a fourth mutual phase modulator configured to generate the second optical signal and the third optical signal with mutual phase modulation of an output signal of the second phase converter and the second optical beat signal, wherein the first phase converter and the second phase converter have different characteristics from each other. 3. The optical frequency shifter according to claim 1 , wherein the third optical signal is weakened by phase change of the first converter and the second beat light used in the second mutual phase modulator. 4. The optical frequency shifter according to claim 1 , wherein the first converter performs Hilbert transform by using the first optical signal as a reference. 5. The optical frequency shifter according to claim 1 , further comprising: a delay line configured to generated the second optical beat signal by changing a phase of the first optical beat signal. 6. The optical frequency shifter according to claim 5 , further comprising: a phase shifter configured to adjustment on optical phase of optical signal to be input to the combiner, before an input to the combiner. 7. The optical frequency shifter according to claim 6 , further comprising: a monitor configured to confirm an output result from the combiner, wherein the monitor transmits a notification to at least one of the phase shifter and the delay line based on a confirmation result, and the phase shifter or the delay line that has been received the notification performs adjustment based on the received notification. 8. The optical frequency shifter according to claim 1 , further comprising: an optical beat signal generator configured to generate an optical beat signal, wherein the optical beat signal generator extracts two desired optical frequencies from an optical frequency comb generated from the optical frequency comb generator that generates an optical frequency comb with a desired optical frequency difference, and generates the first optical beat signal. 9. The optical frequency shifter according to claims 1 , wherein the first mutual phase modulator performs multiplexing of the first optical signal and the first optical beat signal, and modulates a result obtained by multiplexing of the first optical signal and the first optical beat signal, by using a nonlinear optical effect. 10. The optical frequency shifter according to claim 1 , further comprising: a polarization controller configured to control the first optical beat signal so as to have a polarization state different from the first optical signal; and a polarizer configured to pass a main axis for causing a polarized wave which has a polarization state different from that of the first optical signal. 11. An optical frequency shifter comprising: a splitter configured to branch a first optical signal having a first frequency component; a first mutual phase modulator configured to generate a second optical signal having a second frequency component and a third optical signal having a third frequency component with mutual phase modulation of the first optical signal and a first optical beat signal having a desired frequency interval; a phase converter configured to change a phase of an output of the first mutual phase modulator so as to be different from the second optical signal and the third optical signal; a second mutual phase modulator configured to generate the second optical signal and the third optical signal with mutual phase modulation on a branched signal, other than the first optical signal 1 branched by the splitter and a second optical beat signal having a desired frequency interval; and a combiner configured to interfere between an output of the second mutual phase modulator and an output of the phase converter. 12. An optical insertion and branch apparatus which performs separation or mixing in accordance with a wavelength, the apparatus comprising: a first wavelength selection switch configured to separate a plurality of wavelength-multiplexed optical signal in accordance with a wavelength; a frequency shifter configured to convert of frequency on the signal having a wavelength branched as the optical signal which is subjected to wavelength conversion by the first wavelength selection switch; and a second wavelength selection switch configured to multiplex of a signal having a frequency band changed by the frequency shifter and a signal having another wavelength band, wherein the frequency shifter includes a splitter configured to branch a first optical signal having a first frequency component; a first mutual phase modulator configured to generate a second optical signal having a second frequency component and a third optical signal having a third frequency component with mutual phase modulation of the first optical signal and a first optical beat signal having a desired frequency interval; a first phase converter configured to change a phase of an output of the first mutual phase modulator so as to be different from the second optical signal and the third optical signal; a second mutual phase modulator configured to generate the second optical signal and the third optical signal with mutual phase modulation of an output signal of the first phase converter and a second optical beat signal having a desired frequency interval; and a combiner configured to interfere between an output of the second mutual phase modulator and another optical signal obtained by branching of the splitter. 13. The optical frequency shifter according to claim 1 , further comprising: a polarization controller configured to control the first optical beat signal so as to have a polarization state different from the first optical signal. 14. The optical frequency shifter according to claim 1 , further comprising: a polarizer configured to pass a main axis for causing a polarized wave which has a polarization state different from that of the first optical signal.