Fiber-optic compensation for dispersion, gain tilt, and band pump nonlinearity
First Claim
1. An optical element operable to compensate for dispersion associated with a transmission link, the optical element comprising:
- an input port operable to receive an optical signal from at least one transmission link, the optical signal comprising one or more optical signal wavelengths, the at least one transmission link comprising a distributed Raman amplifier coupled to the input port and having a length, an optical loss, a dispersion, a sign of dispersion, and a cut-off wavelength;
a Raman gain fiber coupled to the input port and operable to amplify the optical signal and to compensate for dispersion associated with the at least one transmission link, wherein the Raman gain fiber comprises a dispersion-length product that is approximately equal in magnitude to a dispersion-length product of the at least one transmission link and wherein the Raman gain fiber comprises a sign of dispersion that is opposite a sign of dispersion associated with the at least one transmission link;
a first pump source coupled to the Raman gain fiber and operable to generate a first pump signal that traverses the Raman gain fiber in a first direction; and
a second pump source coupled to the Raman gain fiber and operable to generate a second pump signal that traverses the Raman gain fiber in a direction counter to the first direction, wherein the first pump signal and the second pump signal operate to compensate for the optical loss of the transmission link and an optical loss of the Raman gain fiber; and
an output port for outputting the amplified optical signal.
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Abstract
An apparatus and method are described for combining optical amplification and dispersion compensation in a Raman amplifier. A Dispersion-Managing Raman Amplifier (DMRA) combines Raman amplification with dispersion compensation by selecting the length and dispersion of the gain fiber to balance the dispersion of the link. This gain fiber is also single-mode at the signal and pump wavelengths. The pumping level is adjusted to balance the losses from the gain fiber and transmission link, while the pumping configuration is selected to remain within the 3 dB loss length for the pumping light. When the amplifier is split into two segments, the two segments may be joined by an isolator, a gain equalization element, and/or an optical add/drop multiplexer. For WDM transmission systems based on dispersion-shifted fiber (DSF), operation in the “violet band” between 1430–1530 nm is based on Raman amplification. By using a DMRA, a dispersion and nonlinearity managed system can be implemented. In particular, 4WM does not phase match in such a system, and modulation instability is absent in the transmission link. Furthermore, gain equalization can be added to the DMRA by cascading one or two Mach-Zehnder frequency filters. The invention also includes a method for symmetrically adding channels below and above the C-band, the gain tilt within the C-band can be minimized. Therefore, a roughly equal number of channels should be placed in the short-wavelength S-band and the long-wavelength L-band to minimize the Raman energy exchange in the C-band. Also, whereas C- and L-bands can be amplified using erbium-doped fiber amplifiers, the S-band can use either discrete or distributed Raman amplifiers. To minimize the interaction between pumps for different bands, alternate band pumps can be spatially dispersed and/or cross-polarized. The distributed Raman amplification can be achieved by pumping the transmission line with discrete laser diodes or by a Raman oscillator.
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Citations
26 Claims
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1. An optical element operable to compensate for dispersion associated with a transmission link, the optical element comprising:
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an input port operable to receive an optical signal from at least one transmission link, the optical signal comprising one or more optical signal wavelengths, the at least one transmission link comprising a distributed Raman amplifier coupled to the input port and having a length, an optical loss, a dispersion, a sign of dispersion, and a cut-off wavelength; a Raman gain fiber coupled to the input port and operable to amplify the optical signal and to compensate for dispersion associated with the at least one transmission link, wherein the Raman gain fiber comprises a dispersion-length product that is approximately equal in magnitude to a dispersion-length product of the at least one transmission link and wherein the Raman gain fiber comprises a sign of dispersion that is opposite a sign of dispersion associated with the at least one transmission link; a first pump source coupled to the Raman gain fiber and operable to generate a first pump signal that traverses the Raman gain fiber in a first direction; and a second pump source coupled to the Raman gain fiber and operable to generate a second pump signal that traverses the Raman gain fiber in a direction counter to the first direction, wherein the first pump signal and the second pump signal operate to compensate for the optical loss of the transmission link and an optical loss of the Raman gain fiber; and an output port for outputting the amplified optical signal. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21)
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22. In a fiber-optic transmission system, the system comprising:
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a signal input port operable to receive an optical signal from at least one transmission line, the optical signal comprising one or more signal wavelengths, the at least one transmission line having a length, an optical loss, a dispersion, a sign of dispersion, and a cut-off wavelength; a Raman gain fiber coupled to the signal input port and operable to amplify the optical signal, the Raman gain fiber having an optical loss and comprising a first Raman gain segment and a second Raman gain segment, wherein the optical signal traverses the Raman gain fiber in a first direction; a pump source configured to be coupled to the Raman gain fiber, the pump source operable to generate a pump signal to pump the Raman gain fiber to compensate for the optical loss of the transmission link and the optical loss of the Raman gain fiber, the pump signal comprising a pump wavelength and a pump power, wherein the pump source produces the pump signal at a pumping level sufficiently high so that the optical signal experiences a net gain; a signal output port for outputting the optical signal; and a pump shunt coupled to the signal input port and the signal output port, the pump shunt operable to couple at least a portion of the pump signal between the first Raman gain segment and the second Raman gain segment, wherein the first Raman gain segment is coupled to the signal input port and the second Raman gain segment is coupled to the signal output port and wherein the pump signal traverses the first Raman gain segment in a direction counter to the first direction and then traverses the second segment to deplete the pump power of the pump signal. - View Dependent Claims (23, 24, 25, 26)
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Specification