Free space fiber-optic connector

What is claimed is: 1. A fiber-optic connector assembly comprising: a first connecting portion, the first connecting portion including: a fiber-optic receiver configured to receive an optical signal from an input optical fiber at a fiber communication wavelength between about 1300 nm and about 1650 nm; and a free-space optical transmitter configured to transmit a free-space optical signal at a free-space communication wavelength between about 360 nm and about 3 microns through a free space medium, the optical signal modulated with data recovered from the received optical signal; and a second connecting portion, the second connecting portion including: a free-space optical receiver configured to receive at least a portion of the free-space optical signal transmitted from the free-space optical transmitter; and a fiber-optic transmitter configured to transmit a fiber-optic signal at a fiber communication wavelength between about 1300 nm and about 1650 nm through an output optical fiber, the fiber-optic signal modulated with data recovered from the portion of the space optical signal received at the free-space optical receiver, wherein the first and second connecting portions are configured to be physically connected to each other such that when connected, the free-space optical transmitter is spaced apart from the free-space optical receiver by a distance in the free space medium. 2. The fiber-optic connector assembly of claim 1 , wherein the distance between the free-space optical transmitter and the free-space optical receiver is between about 1 mm and about 1 m. 3. The fiber-optic connector assembly of claim 1 , further comprising a first signal conditioner connected to the fiber-optic receiver and the free-space optical transmitter and configured to condition signal at an output of the fiber-optic receiver. 4. The fiber-optic connector assembly of claim 3 , wherein the first signal conditioner is configured to amplify or retime the signal at the output of the fiber-optic receiver. 5. The fiber-optic connector assembly of claim 3 , further comprising a second signal conditioner connected to the free-space optical receiver and the fiber-optic transmitter and configured to condition signal at an output of the free-space optical receiver. 6. The fiber-optic connector assembly of claim 1 disposed in an environment having turbidity between about 5 NTU and about 5000 NTU. 7. The fiber-optic connector assembly of claim 1 , wherein the first and second connecting portions each comprise a casing. 8. The fiber-optic connector assembly of claim 7 , wherein the casing is configured to substantially shield the free-space optical receiver from light emanating from sources other than the free-space optical transmitter. 9. The fiber-optic connector assembly of claim 1 , wherein the first and the second connecting portions are configured such that when physically connected the free-space medium included between the free-space optical transmitter and the free-space optical receiver can be exchanged with a medium surrounding the fiber-optic connector assembly. 10. The fiber-optic connector assembly of claim 1 , wherein the free-space optical transmitter and the free-space optical receiver each include an optical window that is transmissive to the free-space communication wavelength. 11. The fiber-optic connector assembly of claim 10 , wherein the window is coated by an anti-biologic material. 12. The fiber-optic connector assembly of claim 1 , wherein the first connecting portion further comprises: a free-space optical receiver configured to receive an optical signal over the free space medium at a free-space wavelength between about 360 nm and about 3 microns; and a fiber-optic transmitter configured to transmit the received signal at a fiber communication wavelength between about 1300 nm and about 1650 nm through an output optical fiber. 13. The fiber-optic connector assembly of claim 1 , wherein the second connecting portion further comprises: a fiber-optic receiver configured to receive an optical signal from an input optical fiber at a fiber communication wavelength between about 1300 nm and about 1650 nm; and a free-space optical transmitter configured to transmit the conditioned signal at a free-space communication wavelength between about 360 nm and about 3 microns through the free space medium. 14. An optical communication system comprising: a first free-space optical transmitter configured to transmit a first optical signal at a first free-space communication wavelength between about 360 nm and about 3 microns through a free space medium, the first free-space optical transmitter comprising an optical source and a collimating lens configured to collimate light output from the optical source; and a first free-space optical receiver coupled to the first free-space optical transmitter and spaced apart from the first free-space optical transmitter by a distance less than or equal to about 50 cm in the free space medium, the first free-space optical receiver configured to receive at least a portion of the first free-space optical signal, the first free-space optical receiver comprising an optical detector and a focusing lens having an optical axis and a focal length, the optical detector positioned at a distance less than or greater than the focal length of the focusing lens. 15. The optical communication system of claim 14 , wherein the first free-space optical signal is incident on the focusing lens along a direction that is at an angle between about ±30 degrees with respect to the optical axis in a plane orthogonal to a plane including the optical axis. 16. The optical communication system of claim 14 , further comprising: a second free-space optical transmitter configured to transmit a second free-space optical signal at a second free-space communication wavelength between about 360 nm and about 3 microns through the free space medium; and a second free-space optical receiver optically coupled to the second free-space optical transmitter and spaced apart from the second free-space optical transmitter by a distance less than or equal to about 50 cm in the free space medium, the second free-space optical receiver configured to receive at least a portion of the second free-space optical signal. 17. The optical communication system of claim 14 , wherein the first free-space optical signal is modulated with data having a data rate less than or equal to about 10 Gb/s. 18. The optical communication system of claim 16 , wherein the first free space wavelength is different from the second free-space wavelength. 19. The optical communication system of claim 16 included in a fiber-optic connector assembly, the fiber-optic connector assembly comprising: a first connecting portion; and a second connecting portion, wherein the first connecting portion includes the first free-space optical transmitter and the second free-space optical transmitter, and wherein the second connecting portion includes the first free-space optical receiver and the second free-space optical receiver. 20. The optical communication system of claim 16 included in a fiber-optic connector assembly, the fiber-optic connector assembly comprising: a first connecting portion; and a second connecting portion, wherein the first connecting portion includes the first free-space optical transmitter and the second free-space optical receiver, and wherein the second connecting portion includes the first free-space optical receiver and the second free-space opt