Optical amplifier

What is claimed is: 1. An optical amplifier comprising: an input port for receiving an input optical signal; a wavelength division multiplexer having a first input coupled to the input port, a second input coupled to a pump source, and an output coupled to an amplification fiber; and a first and second integrated component each comprising a tube packaging an input and output fiber, a birefringent crystal, a half wave plate, a lens, a faraday rotator, and a prism, the integrated component configured to provide output monitoring and isolation, wherein the integrated component is configured to: separate a first portion of a light signal received from the amplification fiber, direct the first portion to a photo detector, and direct a second portion of the input light from the amplification fiber to an output port, and wherein the integrated component is configured to attenuate light signals received from the output port; wherein the second integrated component is positioned between the input port and the wavelength division multiplexer, the second integrated component configured to provide input monitoring and isolation wherein the second integrated component is configured to: separate a first portion of the input optical signal received from the first port, direct the first portion to a photo detector and, direct a second portion of the input optical signal to an output coupled to the wavelength division multiplexer, and wherein the second integrated component is configured to attenuate light signals received from the wavelength division multiplexer. 2. The optical amplifier of claim 1 , further comprising: a controller configured to receive an electrical signal from the photo detector and to control an output power of the pump source based at least in part on the received electrical signal. 3. The optical amplifier of claim 1 , wherein the integrated component attenuates light received from the output port by 10 dB or higher. 4. The optical amplifier of claim 1 , comprising: an isolator and a tap positioned between the input port and the wavelength division multiplexer. 5. The optical amplifier of claim 4 , comprising a second photo detector coupled to the tap configured to monitor the input optical signal. 6. The optical amplifier of claim 1 , wherein the wavelength division multiplexer is combined with an isolator forming a third integrated component. 7. An integrated component comprising: an input optical fiber and an output optical fiber; a birefringent crystal having a first surface facing an end of the input optical fiber and the output optical fiber and a second surface facing a wave plate, wherein the wave plate covers a portion of the birefringent crystal; a lens optically positioned between the wave plate and a polarization rotator; and a prism positioned between the polarization rotator and a photodetector, wherein the prism comprises a first end surface facing the polarization rotator and a second end surface facing the photo detector, wherein the first end surface comprises a partial reflective coating, wherein the second end surface has a high reflection for wavelengths corresponding to a pump source and low or no reflection for wavelengths of the optical signal. 8. The integrated component of claim 7 , wherein the polarization rotator is a Faraday rotator. 9. The integrated component of claim 7 , wherein the input optical fiber and the output optical fiber are held in a common package. 10. The integrated component of claim 7 , wherein an input optical signal received at the input optical fiber is routed to the prism, wherein the prism passes a portion of the input optical signal to the photo detector and reflects a portion of the input optical signal toward the output optical fiber. 11. The integrated component of claim 7 , wherein an input optical signal received at the output optical fiber passes through elements of the integrated component such that the optical signal does not pass through the input optical fiber.