Coolerless fiber light source devices for harsh environments

What is claimed is: 1. An environmental robust fiber light source device comprising: a plurality of optic fiber sections; a coolerless pump laser for providing a first light beam having a mean wavelength in a first band; a wavelength division multiplexer having a first terminal, a second terminal and a common terminal, wherein the first terminal thereof is connected to the pump laser through at least one of the optic fiber sections, the first terminal thereof receives the first light beam, for allowing the first light beam having a mean wavelength in the first band to pass from the first terminal thereof to the common terminal thereof, and allowing a second light beam having a mean wavelength in a second band to pass through from the common terminal thereof to the second terminal thereof; an optical isolator, being a single-pass uni-directional element, having a first terminal and a second terminal, wherein the first terminal thereof is connected to the second terminal of the wavelength division multiplexer through at least one of the optic fiber sections, the first terminal thereof receives the second light beam from the second terminal of the wavelength division multiplexer, for allowing the second light beam to pass through from the first terminal thereof to the second terminal thereof; an amplified spontaneous emission unit, having a first terminal and a second terminal, wherein the first terminal thereof is connected to the common terminal of the wavelength division multiplexer through at least one of the optic fiber sections, for receiving the first light beam having a mean wavelength in the first band and producing an amplifying effect, for producing a third light beam in both directions, to both the first and the second terminal, and the third beam spectral contents falling within the second beam and has no overlap to that of the first beam thereof; a bandpass reflector having a first terminal and a second terminal, wherein the first terminal thereof is connected to the second terminal of the amplified spontaneous emission unit through at least one of the optic fiber sections, and the second terminal thereof is connected to at least one of the fiber optic sections, the first terminal thereof is configured to receive the third light beam from the second terminal of the amplified spontaneous emission unit, to reflect the third light beam having a mean wavelength in a specific band to the first terminal thereof, and to allow the remaining of the third light beam mean wavelength to pass through from the first terminal thereof to the second terminal thereof; and a high pass filtering element having a first terminal and a second terminal, wherein the first terminal thereof is configured to receive the second light beam having a mean wavelength in the second band and high pass filter the second light beam and output the second light beam to the second terminal thereof, for suppressing the second light beam having the mean wavelength outside the specific band defined by the bandpass reflector; wherein the second terminal of the amplified spontaneous emission unit receives a reflected fourth light beam from the first terminal of the bandpass reflector, for producing part of the second light beam to the first terminal thereof; wherein the first terminal of the optical isolator is connected to the second terminal of the wavelength division multiplexer through the high pass filtering element, the first terminal of the high pass filtering element is connected to the second terminal of the wavelength division multiplexer through at least one of the optic fiber sections, and the second terminal of the high pass filtering element is connected to the first terminal of the optical isolator through at least one of the optic fiber sections. 2. The light source device according to claim 1 , wherein the bandpass reflector is a temperature compensated bandpass reflector. 3. The light source device according to claim 2 , wherein the temperature bandpass reflector is a temperature compensated optic fiber Bragg grating. 4. The light source according to claim 1 , wherein the amplified spontaneous emission unit is a rare-earth doped optic fiber or a temperature compensated rare-earth doped optic fiber. 5. The light source device according to claim 1 , wherein the high pass filtering element is an optic fiber absorber or temperature compensated optic fiber absorber. 6. The light source device according to claim 1 , wherein the specific band defined by the bandpass reflector falls in between 1535 nanometers to 1565 nanometers, and the first band is centering around 800 nanometers, 980 nanometers or 1480 nanometers, whereas the second band 1550 nanometers. 7. The light source device according to claim 1 , wherein the optic fiber section connected to the second terminal of the bandpass reflector has a fiber termination or a reflecting face, and the reflecting face is an active, partially passive, or totally reflective one. 8. The light source device according to claim 3 , wherein the optic fiber section connected to the second terminal of the temperature compensated bandpass reflector has a fiber termination or a reflecting face, and the reflecting face is an active, partially passive, or totally reflective one. 9. The light source device according to claim 1 , further comprising: an optical circulator having a first terminal, a second terminal and a third terminal, wherein the first terminal thereof is connected to the third terminal thereof through at least one of the optic fiber sections, the second terminal thereof is connected to the second terminal of the bandpass reflector through at least one of the optic fiber sections, for receiving the second light beam having the mean wavelength outside the specific band from the bandpass reflector, and reflecting the second light beam having the mean wavelength in the specific band; wherein the second terminal of the bandpass reflector is configured to receive the second light beam having the mean wavelength outside the specific band from the optical circulator, reflecting the second light beam having the mean wavelength in the specific band, and allowing the second light beam having the mean wavelength outside the specific band to pass from the second terminal thereof to the first terminal thereof. 10. The light source device according to claim 4 , further comprising: an additional pump laser for providing a fifth light beam having a mean wavelength in a third band; an additional wavelength division multiplexer having a first terminal, a second terminal and a common terminal, wherein the first terminal thereof is connected to the additional pump laser through at least one of the optic fiber sections, and the common terminal thereof is connected to the amplified spontaneous emission unit through at least one of the optic fiber sections; and an additional amplified spontaneous emission unit having a first terminal and a second terminal, wherein the first terminal thereof is connected to the first terminal of the wavelength division multiplexer through at least one of the optic fiber sections, and the second terminal thereof is connected to the second terminal of the additional wavelength division multiplexer through at least one of the optic fiber sections. 11. The light source device according to claim 4 , further comprising: a pump reflector fiber grating, having a first terminal and a second terminal, wherein the first terminal thereof is connected to the second terminal of the bandpass reflector through at least one of the optic fiber sections, the second terminal thereof is connected to at least one of the optic fiber sections, the first terminal thereof is configured to