Laser surgical apparatus and methods of its use minimizing damage during the ablation of tissue using a focused ultrashort pulsed laser beam wherein the slope of fluence breakdown is a function of the pulse width

We claim: 1. A laser apparatus for use in a surgical procedure comprising: a housing having interior and exterior regions, said housing forming a part of a handpiece adapted for positioning in a hand of an operator; a laser cavity extending within said interior region of the housing, an operating laser element generating an operating beam, at least a portion of said operating laser element being positioned within the interior region of the housing; a controller configured to remove a first biological tissue from the surface of a second biological tissue using laser induced breakdown of the first biological tissue by plasma formation with said operating beam by focusing said operating beam to a location above a plane of said first biological tissue for ablation of said first biological tissue by said operating beam. 2. The apparatus according to claim 1 further comprising: a cooling arrangement generating a stream of a first coolant, a precooling unit containing a second semi-solid coolant formed with at least one passage going therethrough, and said cooling arrangement communicating with said precooling unit in such a manner that said stream of the first coolant before entering the interior of the housing passes through said at least one passage so as to form a stream of mixed coolant within the interior region of the housing. 3. The apparatus of claim 2 , wherein at least a portion of said precooling unit is situated outside of said housing. 4. The apparatus of claim 3 , wherein said semi-solid coolant is carbon dioxide or dry ice. 5. The apparatus of claim 4 , wherein said precooling unit includes a chamber adapted for receiving said semi-solid carbon dioxide, said chamber communicating with the interior of the housing, and said cooling arrangement is a fan generating a stream of gaseous coolant containing particles of carbon dioxide within the interior region of the housing. 6. The apparatus of claim 5 , wherein said fan generates suction within the interior region of the housing in such a manner that a stream of ambient air before entering the interior of the housing passes through said at least one passage in said carbon dioxide. 7. The apparatus according to claim 1 wherein: a. said beam comprises one or more laser pulses in which each pulse has a pulse width equal to or less than a pulse width value corresponding to a change in slope of a curve of fluence breakdown threshold (Fth) as a function of laser pulse width (T), said change occurring at a point between first and second portions of said curve, said first portion spanning a range of relatively long pulse width where Fth varies with the square root of pulse width (T½) and said second portion spanning a range of short pulse width relative to said first portion with a Fth versus T slope which differs from that of said first portion; and b. an optical system focusing said one or more pulses of said beam to a point above the surface of the tissue to cause laser induced break down of the tissue. 8. The apparatus according to claim 7 further comprising: a cooling arrangement generating a stream of a first coolant, a precooling unit containing a second semi-solid coolant formed with at least one passage going therethrough, and said cooling arrangement communicating with said precooling unit in such a manner that said stream of the first coolant before entering the interior of the housing passes through said at least one passage so as to form a stream of mixed coolant within the interior region of the housing. 9. A laser apparatus for use in a surgical procedure comprising: a housing having interior and exterior regions, said housing forming a part of a handpiece adapted for positioning in a hand of an operator; a laser cavity extending within said interior region of the housing; an operating laser element generating an operating beam, at least a portion of said operating laser element being positioned within the interior region of the housing; a controller configured to remove a first biological tissue from the surface of a second biological tissue using laser induced breakdown of the first biological tissue with the operating beam by focusing the operating beam to a point above a surface of the first biological tissue so that the operating beam defines a spot and has a lateral gaussian profile characterized in that fluence at or near the center of the beam spot is greater than a threshold fluence whereby the laser induced breakdown is ablation by said operating beam of an area within the spot. 10. The apparatus according to claim 9 further comprising: a cooling arrangement generating a stream of a first coolant, a precooling unit containing a plurality of pieces of a second semi-solid concentrated coolant, and said cooling arrangement communicating with said precooling unit in such a manner that said stream of the first coolant before entering the interior of the housing passes between said plurality of pieces of said second coolant. 11. The apparatus of claim 10 , wherein said second concentrated coolant consists of a plurality of pieces of semi-solid carbon dioxide situated within a chamber of the precooling unit, said cooling arrangement generates suction within the interior region of the housing, so that a stream of ambient air prior to entering the interior region of the housing passes between said plurality of pieces of semi-solid carbon dioxide. 12. The apparatus of claim 10 , wherein said cooling arrangement communicates with said precooling unit in such a manner that said stream of the first coolant entrains particles of said second semi-solid coolant, so as to form a stream of mixed coolant within the interior region of the housing, said mixed coolant having thermal calorific capacity higher than the thermal calorific capacity of the first coolant. 13. The apparatus according to claim 9 wherein: a. said beam comprises one or more laser pulses in which each pulse has a pulse width equal to or less than a pulse width value corresponding to a change in slope of a curve of fluence breakdown threshold (Fth) as a function of laser pulse width (T), said change occurring at a point between first and second portions of said curve, said first portion spanning a range of relatively long pulse width where Fth varies with the square root of pulse width (T½) and said second portion spanning a range of short pulse width relative to said first portion with a Fth versus T slope which differs from that of said first portion; and b. an optical system focusing said one or more pulses of said beam to a point above the surface of the tissue to cause laser induced break down of the tissue. 14. A laser apparatus for use in a surgical procedure on tissue comprising: a housing having interior and exterior regions, said housing forming a part of a handpiece adapted for positioning in a hand of an operator; a laser cavity extending within said interior region of the housing, an operating laser element generating an operating beam, at least a portion of said operating laser element being positioned within the interior region of the housing; a controller configured to remove a first biological tissue from the surface of a second biological tissue by plasma formation with said operating beam by focusing said operating beam to a region above a surface of said first biological tissue and spaced apart from said first biological tissue to induce breakdown by plasma formation in said first biological tissue. 15. The apparatus according to claim 14 further comprising: a cooling arrangement generating a stream of a first coolant, a precooling unit containing a