Magnetic tape with specific servo pattern edge shape and magnetic tape device using same

What is claimed is: 1. A magnetic tape, which comprises a magnetic layer comprising ferromagnetic powder and binder on a nonmagnetic support, wherein a coercive force measured in a longitudinal direction of the magnetic tape is less than or equal to 167 kA/m; a timing-based servo pattern is present on the magnetic layer; and an edge shape of a portion of a servo pattern specified by observing the timing-based servo pattern with a magnetic force microscope is a shape in which a difference between a value L 99.9 of 99.9% cumulative distribution function of a width of misalignment from an ideal shape in the longitudinal direction of the magnetic tape and a value L 0.1 of 0.1% cumulative distribution function, L 99.9 −L 0.1 , is less than or equal to 180 nm. 2. The magnetic tape according to claim 1 , wherein the timing-based servo pattern is a linear servo pattern continuously or discontinuously running from one side to the other in a direction of width of the magnetic tape. 3. The magnetic tape according to claim 2 , wherein the timing-based servo pattern is a linear servo pattern inclined by an angle θ relative to the direction of width of the magnetic tape and running continuously from one side to the other side in the direction of width of the magnetic tape, and the ideal shape is a linear shape running in a direction of angle θ. 4. The magnetic tape according to claim 3 , wherein a ΔSFD calculated with Equation 1: ΔSFD=SFD 25° C. −SFD −190° C.   Equation 1 in the longitudinal direction of the magnetic tape is less than or equal to 0.50, and in Equation 1, SFD 25° C. denotes a switching field distribution 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 measured in the longitudinal direction of the magnetic tape in an environment with a temperature of −190° C. 5. The magnetic tape according to claim 4 , wherein the ΔSFD is greater than or equal to 0.03 but less than or equal to 0.50. 6. The magnetic tape according to claim 2 , wherein a ΔSFD calculated with Equation 1: ΔSFD=SFD 25° C. −SFD −190° C.   Equation 1 in the longitudinal direction of the magnetic tape is less than or equal to 0.50, and in Equation 1, SFD 25° C. denotes a switching field distribution 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 measured in the longitudinal direction of the magnetic tape in an environment with a temperature of −190° C. 7. The magnetic tape according to claim 6 , wherein the ΔSFD is greater than or equal to 0.03 but less than or equal to 0.50. 8. The magnetic tape according to claim 1 , wherein a ΔSFD calculated with Equation 1: ΔSFD=SFD 25° C. −SFD −190° C.   Equation 1 in the longitudinal direction of the magnetic tape is less than or equal to 0.50, and in Equation 1, SFD 25° C. denotes a switching field distribution 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 measured in the longitudinal direction of the magnetic tape in an environment with a temperature of −190° C. 9. The magnetic tape according to claim 8 , wherein the ΔSFD is greater than or equal to 0.03 but less than or equal to 0.50. 10. The magnetic tape according to claim 1 , wherein the coercive force is greater than or equal to 119 kA/m but less than or equal to 167 kA/m. 11. A magnetic tape device, which comprises a magnetic tape, a magnetic head, and a servo head, and wherein the magnetic tape is a magnetic tape, which comprises a magnetic layer comprising ferromagnetic powder and binder on a nonmagnetic support, wherein a coercive force measured in a longitudinal direction of the magnetic tape is less than or equal to 167 kA/m; a timing-based servo pattern is present on the magnetic layer; and an edge shape of a portion of a servo pattern specified by observing the timing-based servo pattern with a magnetic force microscope is a shape in which a difference between a value L 99.9 of 99.9% cumulative distribution function of a width of misalignment from an ideal shape in the longitudinal direction of the magnetic tape and a value L 0.1 of 0.1% cumulative distribution function, L 99.9 −L 0.1 , is less than or equal to 180 nm. 12. The magnetic tape device according to claim 11 , wherein the timing-based servo pattern is a linear servo pattern continuously or discontinuously running from one side to the other in a direction of width of the magnetic tape. 13. The magnetic tape device according to claim 12 , wherein the timing-based servo pattern is a linear servo pattern inclined by an angle θ relative to the direction of width of the magnetic tape and running continuously from one side to the other side in the direction of width of the magnetic tape, and the ideal shape is a linear shape running in a direction of angle θ. 14. The magnetic tape device according to claim 13 , wherein a ΔSFD calculated with Equation 1: ΔSFD=SFD 25° C. −SFD −190° C.   Equation 1 in the longitudinal direction of the magnetic tape is less than or equal to 0.50, and in Equation 1, SFD 25° C. denotes a switching field distribution 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 measured in the longitudinal direction of the magnetic tape in an environment with a temperature of −190° C. 15. The magnetic tape device according to claim 14 , wherein the ΔSFD is greater than or equal to 0.03 but less than or equal to 0.50. 16. The magnetic tape device according to claim 12 , wherein a ΔSFD calculated with Equation 1: ΔSFD=SFD 25° C. −SFD −190° C.   Equation 1 in the longitudinal direction of the magnetic tape is less than or equal to 0.50, and in Equation 1, SFD 25° C. denotes a switching field distribution 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 measured in the longitudinal direction of the magnetic tape in an environment with a temperature of −190° C. 17. The magnetic tape device according to claim 16 , wherein the ΔSFD is greater than or equal to 0.03 but less than or equal to 0.50. 18. The magnetic tape device according to claim 11 , wherein a ΔSFD calculated with Equation 1: ΔSFD=SFD 25° C. −SFD −190° C.   Equation 1 in the longitudinal direction of the magnetic tape is less than or equal to 0.50, and in Equation 1, SFD 25° C. denotes a switching field distribution 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 measured in the longitudinal direction of the magnetic tape in an environment with a temperature of −190° C. 19. The magnetic tape device according to claim 18 , wherein the ΔSFD is greater than or equal to 0.03 but less than or equal to 0.50. 20. The magnetic tape device according to claim 11 , wherein the coercive force is greater than or equal to 119 kA/m but less than or equal to 167 kA/m.