Radiation applicator and method of radiating tissue

1. A radiation applicator for applying electromagnetic radiation to tissue, comprising:

• a central conductor having a distal end and a proximal end and adapted to be coupled to a source of electromagnetic radiation;
  
  a dielectric tip member having a distal end and a proximal end;
  
  an outer conductor having a distal end and a proximal end, and outer tube having a distal end including a distal most end, and a proximal end, the distal most end of the outer tubing ending proximal to a distal most end of the applicator, the outer tube coaxially surrounding the outer conductor such that a gap is formed between the outer conductor and the outer tube;
  
  the gap extends from a proximal end of the applicator to a ferrule, the ferrule having a distal end including a distal most end, and a proximal end, the distal most end of the ferrule extending distally beyond the distal most end of the outer tube for a selected distance, the ferrule having a first surface, a second surface, a third surface, the first surface of the ferrule extending coaxially along the outer conductor and the central conductor, the second surface of the ferrule coaxially extends along the distal end of the central conductor, and the third surface of the ferrule coaxially extends between the distal end of the outer conductor and the distal end of the outer tube, the ferrule is spaced between the outer conductor and the outer tube thereby sealing the gap such that the proximal end of the ferrule prevents a cooling fluid from contacting a dipole antenna;
  
  a tuning conductor attached to the distal end of the central conductor, the tuning conductor is in electrical contact with the central conductor;
  
  the dipole antenna formed by the tuning conductor and the dielectric tip member; and
  
  the dipole antenna configured to radiate electromagnetic energy in at least a radial direction from the dielectric tip member.