Universal fiber optic connector

The invention claimed is: 1. A universal fiber optic connector, comprising: a housing; a fiber attachment element configured to attach an optical fiber in the housing, wherein the attachment element positions the optical fiber such that an end face of the fiber is held within the housing, wherein the fiber end face is positioned such that a beam of light emerging from the fiber end face has a defined wavefront located at a specified interface, wherein a radius of the defined wavefront is large enough that any uncontrolled lateral offset between the housing and a housing of a second similarly configured universal fiber optic connector does not diminish the power transmitted by more than about 10%, when the universal fiber optic connector and the similarly configured universal fiber optic connector are connected. 2. The connector of claim 1 , further comprising one or more optics, wherein the beam is transmitted through the one or more optics so that it achieves the defined wavefront at the specified interface, wherein the housing is designed so that any light that is not coupled into the fiber is controlled, either through scattering, absorption or complete transmission. 3. The connector of claim 2 , wherein the attachment element retains the fiber end in a fixed position with respect to the optics. 4. The connector of claim 3 , wherein the position of the fiber end is configured such that the fiber end is centered with respect to an optical axis of the optics and an axis of a light beam emerging from the fiber end is angularly aligned with respect to the optical axis of the optics. 5. The connector of claim 4 , wherein the position of the fiber end and the properties of the optics are selected such that light emerging from the fiber end has the defined wavefront at the specified interface. 6. The connector of claim 1 , wherein the defined wavefront may be defined in terms of beam spot size and divergence angle at the specified interface. 7. The connector of claim 1 , wherein the attachment element is a sleeve and adhesive, a glass capillary and adhesive, a metal sleeve or a mechanical fastener. 8. The connector of claim 1 , wherein the housing is of transparent (at given wavelength) or opaque materials. 9. The connector of claim 1 , wherein the housing is made of metal, glass or ceramic. 10. The connector of claim 1 , wherein the defined wavefront is collimated. 11. The connector of claim 1 , further comprising an electrical connector configured to transmit electrical current or signals to a similarly configured universal fiber optic connector when the universal fiber optic connector is coupled to the similarly fiber optic connector. 12. A universal fiber optic connector, comprising: a housing; a fiber attachment element configured to attach an optical fiber in the housing, wherein the attachment element positions the optical fiber such that an end face of the fiber is held within the housing, wherein the fiber end face is positioned such that a beam of light emerging from the fiber end face has a defined wavefront located at a specified interface, wherein a divergence half-angle of the defined wavefront is small enough that any uncontrolled lateral offset between the housing and a housing of a second similarly configured universal fiber optic connector does not diminish the power transmitted by more than about 10% when the universal fiber optic connector and the similarly configured universal fiber optic connector are connected. 13. The connector of claim 12 , wherein a divergence half-angle of the defined wavefront is sufficiently larger than an angular alignment tolerance between the housing and a housing of a second similarly configured universal fiber optic connector such that optical power transmitted between the universal fiber optic connector and the similarly configured fiber optic connector is not diminished by more than about 10% when the universal fiber optic connector and the similarly configured universal fiber optic connector are connected. 14. A universal fiber optic connector, comprising: a housing; a fiber attachment element configured to attach an optical fiber in the housing, wherein the attachment element positions the optical fiber such that an end face of the fiber is held within the housing, wherein the fiber end face is positioned such that a beam of light emerging from the fiber end face has a defined wavefront located at a specified interface , wherein a divergence half-angle of the defined wavefront is sufficiently larger than an angular alignment tolerance between the housing and a housing of a second similarly configured universal fiber optic connector such that optical power transmitted between the universal fiber optic connector and the similarly configured fiber optic connector is not diminished by more than about 10% when the universal fiber optic connector and the similarly configured universal fiber optic connector are connected. 15. A universal fiber optic connector, comprising: a housing; a fiber attachment element configured to attach an optical fiber in the housing, wherein the attachment element positions the optical fiber such that an end face of the fiber is held within the housing, wherein the fiber end face is positioned such that a beam of light emerging from the fiber end face has a defined wavefront located at a specified interface; and an alignment body configured to constrain degrees of freedom of the housing substantially parallel to a plane of the specified interface. 16. The connector of claim 15 , wherein the alignment body permits motion in a direction substantially perpendicular to the plane of the specified interface. 17. The connector of claim 16 , wherein the alignment body is a tube.