High-strength microwave antenna assemblies

We claim: 1. A microwave antenna comprising: a feedline including an inner conductor, an outer conductor, and a first dielectric; a radiating portion coupled to the feedline via compression; and a second dielectric, wherein at least a portion of the second dielectric is disposed between the radiating portion and the outer conductor. 2. The microwave antenna according to claim 1 , wherein the first dielectric is disposed between the inner and outer conductors. 3. The microwave antenna according to claim 1 , wherein the radiating portion is electrically connected to the inner conductor. 4. The microwave antenna according to claim 1 , wherein the second dielectric prevents the radiating portion from contacting the outer conductor. 5. The microwave antenna according to claim 1 , wherein the second dielectric is selected from the group consisting of ceramics, air, and thermoplastics. 6. The microwave antenna according to claim 1 , wherein the second dielectric is a junction member disposed between the radiating portion and the feedline. 7. The microwave antenna according to claim 6 , wherein the radiating portion is coupled to the feedline via a compressive force applied on the junction member by the feedline and the radiating portion. 8. The microwave antenna according to claim 1 , wherein the radiating portion includes a sharpened distal tip configured for insertion into tissue. 9. The microwave antenna according to claim 1 , wherein the radiating portion is configured to generate a spherical ablation zone. 10. The microwave antenna according to claim 1 , wherein the radiating portion is electrically connected to the inner conductor via soldering. 11. The microwave antenna according to claim 1 , wherein the inner conductor extends distally beyond the outer conductor. 12. A microwave antenna comprising: a feedline including an inner conductor and an outer conductor; a radiating portion mechanically coupled to the feedline; and a dielectric at least partially disposed between the radiating portion and the outer conductor, the radiating portion coupled to the feedline via a compressive force applied on the dielectric. 13. The microwave antenna according to claim 12 , wherein the radiating portion is electrically connected to the inner conductor. 14. The microwave antenna according to claim 12 , wherein the dielectric prevents the radiating portion from contacting the outer conductor. 15. The microwave antenna according to claim 12 , wherein the compressive force is applied on the dielectric by at least one of the feedline or the radiating portion. 16. The microwave antenna according to claim 12 , wherein the dielectric is selected from the group consisting of ceramics, air, and thermoplastics. 17. The microwave antenna according to claim 12 , wherein the dielectric is a junction member disposed between the radiating portion and the feedline. 18. The microwave antenna according to claim 12 , further comprising at least one dielectric layer overlying the outer conductor. 19. The microwave antenna according to claim 12 , wherein the radiating portion is electrically connected to the inner conductor via soldering. 20. The microwave antenna according to claim 12 , wherein the inner conductor extends distally beyond the outer conductor.