Coaxial cable

What is claimed is: 1 . A coaxial cable, comprising: an inner conductor; an outer conductor surrounding the inner conductor in a coaxial relationship; a first insulative material located between the inner conductor and the outer conductor at a non-bent portion of the coaxial cable and a bent portion of the coaxial cable, the first insulative material has a first dielectric constant; and a second insulative material located between the inner conductor and the outer conductor at the bent portion of the coaxial cable, the second insulative material has a second dielectric constant that is lower than the first dielectric constant. 2 . The coaxial cable of claim 1 , wherein at the bent portion of the coaxial cable, the inner conductor forms a non-sweeping approximately 90 degree angle. 3 . The coaxial cable of claim 1 , wherein the second insulative material fills a cavity in the first insulative material at the bent portion of the coaxial cable. 4 . The coaxial cable of claim 1 , wherein the second insulative material includes a plurality of masses of the second insulative material that are distributed throughout the first insulative material at the bent portion of the coaxial cable. 5 . The coaxial cable of claim 4 , wherein the plurality of masses of the second insulative material have a varying size, a varying shape, or both a varying size and shape. 6 . The coaxial cable of claim 4 , wherein the plurality of masses of the second insulative material are equally distributed throughout the first insulative material at the bent portion of the coaxial cable. 7 . The coaxial cable of claim 1 , wherein the non-bent portion of the coaxial cable further includes the second insulative material. 8 . A coaxial cable, comprising: an inner conductor; an outer conductor surrounding the inner conductor in a coaxial relationship, a distance between the inner conductor and the outer conductor is substantially the same or greater at a bent portion of the coaxial cable than at a non-bent portion of the coaxial cable; a first insulative material located between the inner conductor and the outer conductor at the non-bent portion of the coaxial cable, the first insulative material has a first dielectric constant; and a second insulative material located between the inner conductor and the outer conductor at the bent portion of the coaxial cable, the second insulative material has a second dielectric constant that is lower than the first dielectric constant. 9 . The coaxial cable of claim 8 , wherein at the bent portion of the coaxial cable, the inner conductor forms a non-sweeping approximately 90 degree angle. 10 . The coaxial cable of claim 8 , wherein the bent portion of the coaxial cable further includes the first insulative material. 11 . The coaxial cable of claim 10 , wherein the second insulative material fills a cavity in the first insulative material at the bent portion of the coaxial cable. 12 . The coaxial cable of claim 10 , wherein the second insulative material includes a plurality of masses of the second insulative material that are distributed throughout the first insulative material at the bent portion of the coaxial cable. 13 . The coaxial cable of claim 12 , wherein the plurality of masses of the second insulative material are equally distributed throughout the first insulative material at the bent portion of the coaxial cable. 14 . A method, comprising: obtaining a non-bent impedance of an inner conductor in a non-bent portion of a coaxial cable that includes a first insulative material with a first dielectric constant between the inner conductor and an outer conductor of the coaxial cable; obtaining a bent impedance of the inner conductor in a bent portion of the coaxial cable that includes the first insulative material; comparing the bent impedance and the non-bent impedance; and in response to the comparison, adjusting an amount of a second insulative material located between the inner conductor and the outer conductor at a bent portion of the coaxial cable, the second insulative material has a second dielectric constant that is lower than the first dielectric constant. 15 . The method of claim 14 , wherein in response to the bent impedance being greater than the non-bent impedance, the adjusting the amount of the second insulative material includes decreasing the amount of the second insulative material. 16 . The method of claim 14 , wherein in response to the bent impedance being less than the non-bent impedance, the adjusting the amount of the second insulative material includes increasing the amount of the second insulative material. 17 . The method of claim 14 , wherein the adjusting the amount of the second insulative material includes increasing or decreasing a number of masses of the second insulative material that are distributed throughout the first insulative material at the bent portion of the coaxial cable. 18 . The method of claim 14 , further comprising in response to the comparison, adjusting the second dielectric constant of the second insulative material. 19 . The method of claim 18 , wherein in response to the bent impedance being greater than the non-bent impedance, the adjusting the amount of the second insulative material includes decreasing the amount of the second insulative material and increasing the second dielectric constant of the second insulative material. 20 . The method of claim 18 , wherein in response to the bent impedance being less than the non-bent impedance, the adjusting the amount of the second insulative material includes increasing the amount of the second insulative material and decreasing the second dielectric constant of the second insulative material.