Carbon fibers having improved strength and modulus and an associated method and apparatus for preparing same

That which is claimed: 1. A carbon fiber having a tensile strength from about 950 to 1166 ksi and modulus of elasticity of about 45 to 53.3 Msi, and an Arithmetic Average Roughness (Ra) between 2 and 5.9. 2. The carbon fiber according to claim 1 , wherein the carbon fiber has a radial uniformity value RU from 50 to 1,000. 3. The carbon fiber according to claim 1 , wherein the carbon fiber has a tensile strength about of 1000 to 1166 ksi and modulus of elasticity of about 50 to 53.3 Msi. 4. The carbon fiber according to claim 1 , wherein the carbon fiber has a tensile strength about of 1107 to 1166 ksi and modulus of elasticity of about 51.5 to 53.3 Msi. 5. The carbon fiber according to claim 1 , wherein the carbon fiber has at least one of the following a maximum phase angle depth between 32 and 50 nanometers; and an average phase angle depth between 10 to 14 nanometers. 6. The carbon fiber according to claim 5 , wherein the carbon fiber has a maximum phase angle depth between 40 and 50 nm. 7. The carbon fiber according to claim 6 , wherein the carbon fiber has a roughness having a Root Mean Square Roughness (Rq) value between 2 and 8.2. 8. A carbon fiber having a tensile strength from about 950 to 1166 ksi and modulus of elasticity of about 45 to 53.3 Msi, and a radial uniformity value RU from 50 to 1,000. 9. The carbon fiber according to claim 8 , wherein the carbon fiber has at least one of the following a maximum phase angle depth between 32 and 50 nanometers; and an average phase angle depth between 10 to 14 nanometers. 10. The carbon fiber according to claim 8 , wherein the carbon fiber has a tensile strength about of 1000 to 1166 ksi and modulus of elasticity of about 50 to 53.3 Msi. 11. The carbon fiber according to claim 8 , wherein the carbon fiber has a crystalline width value L a between 4 and 5.7 nanometers and an Arithmetic Average Roughness (Ra) between 2 and 5.9. 12. The carbon fiber according to claim 8 , wherein the carbon fiber has a radial uniformity value RU from 50 to 100. 13. The carbon fiber according to claim 8 , wherein the carbon fiber has a difference in crystallinity “RD” between the inner and outer layers of a single filament that is from 0.01 to 0.05. 14. The carbon fiber according to claim 8 , wherein the carbon fiber has an average phase angle depth between 10 to 14 nanometers; an Arithmetic Average Roughness (Ra) between 2 and 5.9; and a roughness having a Root Mean Square Roughness (Rq) value between 2 and 8.2. 15. A carbon fiber having a tensile strength from about 950 to 1166 ksi and modulus of elasticity of about 45 to 53.3 Msi, a difference in crystallinity “RD” between the inner and outer layers of a single filament that is from 0.01 to 0.05. 16. The carbon fiber according to claim 10 , wherein the carbon fiber has a tensile strength about of 1000 to 1166 ksi and modulus of elasticity of about 50 to 53.3 Msi, and an average phase angle depth between 5 to 15.1 nanometers. 17. The carbon fiber according to claim 15 , wherein the carbon fiber has a roughness having a Root Mean Square Roughness (Rq) value between 3.9 and 8.2 and a radial uniformity RU value of about 50 to about 1000. 18. The carbon fiber according to claim 15 , wherein the carbon fiber has a difference in crystallinity “RD” between the inner and outer layers of a single filament that is from about 0.01 to 0.05, and a maximum phase angle depth between 32 and 50 nm. 19. The carbon fiber according to claim 15 , wherein the carbon fiber has at least one of the following an Arithmetic Average Roughness (Ra) between 2 and 5.9; a maximum phase angle depth between 32 and 50 nanometers; and an average phase angle depth between 5 to 15.1 nanometers. 20. The carbon fiber according to claim 15 , wherein the carbon fiber has at least two of the following: an Arithmetic Average Roughness (Ra) between 2 and 5.9; a crystalline width value L a between 4 and 5.7 nanometers; a maximum phase angle depth between 32 and 50 nanometers; and an average phase angle depth between 5 to 15.1 nanometers; a roughness having a Root Mean Square Roughness (Rq) value between 2 and 8.2; and a radial uniformity RU value of about 50 to about 1000.