Optical fiber connector and adapter

What is claimed is: 1 . A system for coupling an optical fiber to a surgical laser system, comprising: a port adapter configured to receive an optical fiber, the port adapter comprising: a substantially cylindrical barrel, comprising: a distal portion having a first inner diameter; a medial portion having a second inner diameter smaller than the first inner diameter; a tapered surface disposed between the distal portion and the medial portion, the tapered surface configured to provide axial guidance during insertion of the optical fiber into the port adapter; a clocking key disposed on an outer surface of the distal portion, the clocking key configured to facilitate guided rotation of the optical fiber during insertion into the port adapter; and a tapered fiber cam slot formed in the distal portion, the tapered fiber cam slot formed on a circumferentially opposed side of the distal portion relative to the clocking key; and a sleeve disposed within the medial portion of the barrel, the sleeve configured to provide optical alignment during insertion and removal of the optical fiber into and from the port adapter. 2 . The system of claim 1 , wherein the clocking key and tapered fiber cam slot of the barrel facilitate a 0° ferrule angle of the optical fiber when the optical fiber is fully inserted into the port adapter. 3 . The system of claim 1 , wherein the port adapter further comprises: a stop collar disposed at a proximal end of the medial portion of the barrel, the stop collar configured to facilitate positioning a ferrule of the optical fiber at an appropriate focal position to receive an input laser or illumination light beam from the surgical laser system. 4 . The system of claim 1 , wherein the port adapter further comprises: a base coupled to the barrel, the base comprising an optical fiber detection window configured to facilitate detection of the optical fiber in the port adapter. 5 . The system of claim 4 , wherein the system further comprises: a condensing lens disposed adjacent to the port adapter, the condensing lens configured to relay an input laser or illumination beam to the optical fiber when the optical fiber is inserted into the port adapter. 6 . The system of claim 5 , wherein each of the condensing lens and the base of the port adapter comprise a window for transmitting the input laser or illumination beam to the optical fiber when the optical fiber is inserted into the port adapter. 7 . The system of claim 1 , wherein the sleeve of the port adapter is formed from a ceramic material. 8 . The system of claim 1 , wherein the system further comprises: one or more ball plungers disposed radially outward of the barrel of the port adapter, the ball plungers configured to secure the optical fiber in the port adapter when the optical fiber is fully inserted into the port adapter. 9 . The system of claim 1 , wherein the system further comprises: a cover plate disposed radially outward of the distal portion of the barrel of the port adapter, the cover plate comprising a tapered inner diameter configured to provide coarse axial guidance during insertion of the optical fiber into the port adapter. 10 . The system of claim 1 , wherein the system further comprises: a radio frequency identification (RFID) device, the RFID device configured for identifying a type of the optical fiber when the optical fiber is inserted into the port adapter. 11 . The system of claim 1 , wherein the optical fiber to be received by the port adapter comprises: a connector disposed on a proximal end of the optical fiber, the connector configured to releasably mate with the port adapter via a push-pull retention mechanism to couple the optical fiber and the connector to the surgical laser system in a rotationally guided, clocked angular orientation, with unguided, free rotation of the connector relative to the optical fiber, the connector comprising: a ferrule securing the proximal end of the optical fiber therein; a ferrule body coupled to a distal end of the ferrule, the ferrule body comprising a fiber key disposed on an outer surface of the ferrule body and configured to mate with the tapered fiber cam slot of the barrel of the port adapter; and an outer barrel disposed radially outward of the ferrule and the ferrule body, the outer barrel comprising a main cam slot disposed on an inner surface of the outer barrel and configured to mate with the clocking key of the barrel of the port adapter. 12 . The system of claim 11 , wherein the outer barrel of the connector further comprises a conical ramp surface disposed on an outer surface of a proximal end of the outer barrel, the conical ramp surface configured to facilitate a capture force by one or more ball plungers of the port adapter when the optical fiber is fully inserted into the port adapter. 13 . The system of claim 11 , wherein the connector further comprises: an axial compression spring disposed circumferentially around the ferrule body and against the inner surface of the outer barrel, the axial compression spring configured to enable spring-loaded axial registration of the ferrule body against the barrel of the port adapter when the optical fiber is fully inserted into the port adapter. 14 . The system of claim 11 , wherein the ferrule body further comprises one or more slideable rotational alignment features formed on the outer surface of the ferrule body, the one or more rotational alignment features configured to maintain rotational alignment of the ferrule body relative to the outer barrel. 15 . The system of claim 11 , wherein the connector further comprises: a grip distally disposed relative to the connector for holding by a user; and a cap adjacent to a proximal end of the grip, the cap comprising: a RFID device for identifying a type of the optical fiber; a visual clocking rib for approximate visual clocking alignment by the user during insertion of the optical fiber into the port adapter; and a snap-fit mechanism that interfaces to the connector.