Optical phase-sensitive amplifier with signal noise removal

What is claimed is: 1. An optical system for phase-sensitive amplification of optical signals, the optical system comprising: an input optical signal; a phase-sensitive amplifier (PSA) stage I receiving the input optical signal, further comprising: a pump laser generating a first pump wavelength; a first phase modulator for phase modulating the first pump wavelength; and a first non-linear optical element (NLE) through which the input optical signal and the first pump wavelength are transmitted to generate a PSA stage I optical signal comprising the input optical signal, the first pump wavelength, and an idler signal generated using the first NLE; and a PSA stage II receiving the PSA stage I optical signal, wherein the PSA stage II further comprises: a second NLE through which the PSA stage I optical signal is amplified to generate an output optical signal; and a second phase modulator for phase modulating the output optical signal, wherein the second phase modulator counter dithers the first phase modulator to reduce noise in the output optical signal. 2. The optical system of claim 1 , wherein the PSA stage II further comprises: a Raman amplifier; and a second pump wavelength for transmission through the Raman amplifier in a counter propagating direction to the PSA stage I signal. 3. The optical system of claim 1 , further comprising: a phase shifter to control the first phase modulator and the second phase modulator. 4. The optical system of claim 1 , wherein the input optical signal comprises a wavelength division multiplexed (WDM) optical signal. 5. The optical system of claim 1 , further comprising: an intensity modulator for intensity modulating the output optical signal, wherein the intensity modulator reduces intensity modulation in the output optical signal resulting from the phase modulation of the first pump wavelength. 6. A phase-sensitive amplifier, comprising: a phase-sensitive amplifier (PSA) stage I receiving an input optical signal, wherein the PSA stage I further comprises: a pump laser generating a first pump wavelength; a first phase modulator for phase modulating the first pump wavelength; and a first non-linear optical element (NLE) through which the input optical signal and the first pump wavelength are transmitted to generate a PSA stage I optical signal comprising the input optical signal, the first pump wavelength, and an idler signal generated using the first NLE; and a PSA stage II receiving the PSA stage I optical signal, wherein the PSA stage II further comprises: a second NLE through which the PSA stage I optical signal is amplified to generate an output optical signal; and a second phase modulator for phase modulating the output optical signal, wherein the second phase modulator counter dithers the first phase modulator to reduce noise in the output optical signal. 7. The phase-sensitive amplifier of claim 6 , wherein the PSA stage II further comprises: a Raman amplifier; and a second pump wavelength for transmission through the Raman amplifier in a counter propagating direction to the PSA stage I signal. 8. The phase-sensitive amplifier of claim 6 , further comprising: a phase shifter to control the first phase modulator and the second phase modulator. 9. The phase-sensitive amplifier of claim 6 , wherein the input optical signal comprises a wavelength division multiplexed (WDM) optical signal. 10. The phase-sensitive amplifier of claim 6 , further comprising: an intensity modulator for intensity modulating the output optical signal, wherein the intensity modulator reduces intensity modulation in the output optical signal resulting from the phase modulation of the first pump wavelength. 11. A method for operating phase-sensitive amplifiers in optical networks, the method comprising: receiving an input optical signal; sending the input optical signal to a phase-sensitive amplifier (PSA) stage I to generate an idler signal, further comprising: phase modulating a first pump wavelength using a first phase modulator; and transmitting the input optical signal and the first pump wavelength through a first non-linear optical element (NLE) to generate a PSA stage I optical signal comprising the input optical signal, the first pump wavelength, and the idler signal generated using the first NLE; and amplifying the PSA stage I optical signal using a PSA stage II, further comprising: transmitting the PSA stage I optical signal through a second NLE to amplify the PSA stage I optical signal to generate an output optical signal; and phase modulating the output optical signal using a second phase modulator that counter dithers the first phase modulator to reduce noise in the output optical signal. 12. The method of claim 11 , wherein amplifying the PSA stage I optical signal further comprises: transmitting a second pump wavelength through a Raman amplifier in a counter propagating direction to the PSA stage I signal. 13. The method of claim 11 , wherein phase modulating the first pump wavelength and phase modulating the output optical signal further comprises: controlling the first phase modulator and the second phase modulator using a phase shifter. 14. The method of claim 11 , wherein the input optical signal comprises a wavelength division multiplexed (WDM) optical signal. 15. The method of claim 11 , wherein amplifying the PSA stage I optical signal further comprises: intensity modulating the output optical signal, including reducing intensity modulation in the output optical signal resulting from the phase modulating of the first pump wavelength.