Magnetic tape

What is claimed is: 1. A magnetic tape comprising a magnetic layer comprising ferromagnetic powder and binder on a nonmagnetic support, wherein ΔSFD in a longitudinal direction of the magnetic tape as calculated with Equation 1 ranges from 0.35, to 1.43: ΔSFD=SFD 25° C. −SFD −190° C.   Equation 1 wherein, in Equation 1, SFD 25° C. denotes a switching field distribution SFD as measured in the longitudinal direction of the magnetic tape in an environment with a temperature of 25° C., and SFD −190° C. denotes a switching field distribution SFD as measured in the longitudinal direction of the magnetic tape in an environment with a temperature of −190° C. 2. The magnetic tape according to claim 1 , wherein a coercive force Hc in the Longitudinal direction of the magnetic tape ranges from 96 kA/m to 279 kA/m. 3. The magnetic tape according to claim 1 , which comprises a nonmagnetic Layer comprising nonmagnetic powder and binder between the nonmagnetic support and the magnetic layer. 4. The magnetic tape according to claim 2 , which comprises a nonmagnetic layer comprising nonmagnetic powder and binder between the nonmagnetic support and the magnetic layer. 5. The magnetic tape according to claim 1 , which has a magnetic tape thickness of less than or equal to 6.0 μm. 6. The magnetic tape according to claim 2 , which has a magnetic tape thickness of less than or equal to 6.0 μm. 7. The magnetic tape according to claim 3 , which has a magnetic tape thickness of less than or equal to 6.0 μm. 8. The magnetic tape according to claim 4 , which has a magnetic tape thickness of less than or equal to 6.0 μm. 9. The magnetic tape according to claim 1 , which has a centerline average surface roughness Ra of a surface of the magnetic layer as measured with a noncontact surface profile measuring apparatus of less than or equal to 1.8 nm. 10. The magnetic tape according to claim 1 , which has a centerline average surface roughness Ra of a surface of the magnetic layer as measured with an atomic force microscope of less than or equal to 2.5 nm. 11. The magnetic tape according to claim 1 , wherein the magnetic layer further comprises an abrasive. 12. The magnetic tape according to claim 1 , wherein the magnetic layer further comprises nonmagnetic colloidal particles. 13. The magnetic tape according to claim 1 , wherein the ferromagnetic powder is ferromagnetic hexagonal ferrite powder with an average particle size ranging from 10 nm to 50 nm. 14. The magnetic tape according to claim 1 , wherein the ferromagnetic powder is ferromagnetic metal powder with an average particle size ranging from 10 nm to 50 nm. 15. The magnetic tape according to claim 1 , wherein the ferromagnetic powder is ferromagnetic powder in which a difference ΔSFD powder between SFD as measured in an environment with a temperature of 100° C. and SFD as measured in an environment with a temperature of 25° C. as calculated with Equation 2 ranges from 0.05 to 1.50: ΔSFD powder =SFD powder 100° C. −SFD powder 25° C.   Equation 2 wherein, in Equation 2, SFD powder 100° C. denotes a switching field distribution SFD of the ferromagnetic powder as measured in an environment with a temperature of 100° C. and SFD powder 25° C. denotes a switching field distribution SFD of the ferromagnetic powder as measured in an environment with a temperature of 25° C. 16. The magnetic tape according to claim 1 , wherein the ferromagnetic powder is ferromagnetic hexagonal ferrite powder in which a difference ΔSFD powder between SFD as measured in an environment with a temperature of 100° C. and SFD as measured in an environment with a temperature of 25° C. as calculated with Equation 2, ranges from 0.05 to 1.50: ΔSFD powder =SFD powder 100° C. −SFD powder 25° C.   Equation 2 wherein, in Equation 2, SFD powder 100° C. denotes a switching field distribution SFD of the ferromagnetic powder as measured in an environment with a temperature of 100° C. and SFD powder 25° C. denotes a switching field distribution SFD of the ferromagnetic powder as measured in an environment with a temperature of 25° C. 17. The magnetic tape according to claim 16 , wherein the ferromagnetic hexagonal ferrite powder has an average particle size ranging from 10 nm to 50 nm. 18. The magnetic tape according to claim 1 , wherein the ferromagnetic powder is ferromagnetic metal powder in which a difference ΔSFD powder , between SFD as measured in an environment with a temperature of 100° C. and SFD as measured in an environment with a temperature of 25° C. as calculated with Equation 2 ranges from 0.05 to 1.50: ΔSFD powder =SFD powder 100° C. −SFD powder 25° C.   Equation 2 wherein, in Equation 2, SFD powder 100° C. denotes a switching field distribution SFD of the ferromagnetic powder as measured in an environment with a temperature of 100° C. and SFD powder 25° C. denotes a switching field distribution SFD of the ferromagnetic powder as measured in an environment with a temperature of 25° C. 19. The magnetic tape according to claim 18 , wherein the ferromagnetic metal powder has an average particle size ranging from 10 nm to 50 nm.