Input/output coupling device for optical fiber used in high power laser beam delivery

1. An input/output fiber coupling device for a longitudinally extending optical fiber defining a longitudinal axis and a coupling end face substantially normal to said longitudinal axis and a side surface running parallel to said longitudinal axis comprising:

• a chamber wall defining a generally longitudinally shaped chamber having oppositely disposed first and second sides, said chamber wall forming a cavity therein;
  
  said first side of said chamber wall having an opening adapted to receive a lens, said second side of said chamber wall having a bore adapted to receive the end of the optical fiber with the end face of the optical fiber facing the interior of said cavity;
  
  a fluid input port provided near said bore in said second side of said chamber wall for the introduction of fluid into said cavity along the end of the said side surface of the optical fiber;
  
  a fluid output port in said chamber wall for the withdrawal of fluid from said cavity;
  
  a focussing lens fitted within the opening of the first side of said chamber wall;
  
  said focussing lens having input and output laser beam paths aligned along the longitudinal axis of the optical fiber for focussing a laser beam onto the end face of the fiber; and
  
  an index-matching fluid circulating within the cavity between the focussing lens and the optical fiber end face;
  
  wherein said index-matching fluid is introduced into said cavity through said input port, and withdrawn from said cavity through said output port thereby cooling said optical fiber end at least while said laser beam is focussed on the end face of the optical fiber;
  
  said second side of said chamber wall is formed with an outer axial bore having a diameter substantially the same as that of the optical fiber, an inner axial bore having a diameter larger than that of the outer axial bore and adjoining the outer axial bore, and a radial bore communicating said inner axial bore with the outside of the cavity in an axially symmetric manner;
  
  the optical fiber is inserted into the cavity through said outer axial bore and inner axial bore;
  
  said fluid output port is formed on the first side of said chamber wall in an axially symmetric manner; and
  
  the fluid is introduced into the cavity through the radial bore and an annulus formed between a wall of the inner axial bore and the surface of the fiber so that fluid flowing between said fluid input port and said fluid output port through said chamber past said lens flows in an axially symmetric manner.