Power loss mitigation for data storage device

What is claimed is: 1. A Data Storage Device (DSD), comprising: a disk for storing data; a head for writing data on the disk; a volatile memory for temporarily storing data to be written on the disk; a Non-Volatile Solid-State Memory (NVSM) for storing data; a servo system for controlling a position of the head in relation to the disk; and a controller configured to: store data in the volatile memory in preparation for writing the data on the disk; control the head to write data from the volatile memory onto the disk; determine whether data written on the disk is qualified as written based on an indication from the servo system; and in the event of an unexpected power loss, transfer a portion of unqualified data from the volatile memory to the NVSM, wherein the unqualified data has not been qualified as written. 2. The DSD of claim 1 , further comprising a spindle motor configured to rotate the disk, wherein kinetic energy from a rotation of the spindle motor powers the NVSM after the unexpected power loss so as to facilitate the transfer of the unqualified data from the volatile memory to the NVSM. 3. The DSD of claim 1 , wherein the controller is further configured to maintain an indication of which data stored in the volatile memory is qualified data. 4. The DSD of claim 3 , wherein the controller is further configured to: control the head to write data from the volatile memory in sectors on the disk; and maintain the indication of which data stored in the volatile memory is qualified data by keeping a count of sectors written on the disk that have been qualified as written. 5. The DSD of claim 1 , wherein the indication from the servo system indicates whether the data was written within a threshold distance from a center of a track on the disk. 6. The DSD of claim 1 , wherein the unqualified data includes data that has been unsuccessfully written on the disk and to be rewritten on the disk as a write retry. 7. The DSD of claim 1 , wherein in transferring the unqualified data from the volatile memory to the NVSM, the controller is further configured to store metadata in the NVSM including addresses for the unqualified data. 8. The DSD of claim 1 , wherein after power-up of the DSD following the unexpected power loss, the controller is further configured to control the head to write the unqualified data on the disk that was transferred to the NVSM before performing any commands involving the unqualified data. 9. The DSD of claim 1 , wherein the NVSM includes a first segment for storing unqualified data transferred from the volatile memory after a previous unexpected power loss and a second segment for storing unqualified data transferred from the volatile memory after a current unexpected power loss. 10. A Data Storage Device (DSD), comprising: a disk for storing data; a head for writing data on the disk; a volatile memory for temporarily storing data to be written on the disk; a Non-Volatile Solid-State Memory (NVSM) for storing data; and a controller configured to: receive a write command including new data to be written in a physical sector on the disk or retrieve new data to be written in the physical sector from the NVSM or the disk; control the head to read runt data previously written in the physical sector; store at least the runt data in the volatile memory in preparation for writing the new data and the runt data in the physical sector; control the head to write the new data and the runt data in the physical sector; determine whether the new data and the runt data written in the physical sector are qualified as written; and in the event of an unexpected power loss before the new data and the runt data are qualified as written, transfer the runt data and any of the new data stored in the volatile memory from the volatile memory to the NVSM. 11. The DSD of claim 10 , wherein the controller is further configured to maintain an indication of which data stored in the volatile memory has been qualified as written. 12. The DSD of claim 10 , further comprising a servo system for controlling a position of the head in relation to the disk, and wherein the controller is further configured to determine whether the new data and the runt data written on the disk are qualified based on an indication from the servo system. 13. The DSD of claim 12 , wherein the indication from the servo system indicates whether the new data and the runt data were written within a threshold distance from a center of a track on the disk. 14. The DSD of claim 10 , wherein after power-up of the DSD following the unexpected power loss, the controller is further configured to control the head to write in the physical sector the runt data and any of the new data that was transferred to the NVSM before performing any commands involving the new data or the runt data. 15. A method for managing data stored in a Data Storage Device (DSD) including a disk for storing data, a volatile memory for temporarily storing data to be written on the disk, and a Non-Volatile Solid-State Memory (NVSM) for storing data, the method comprising: storing data in the volatile memory in preparation for writing the data on the disk; writing data from the volatile memory onto the disk; determining whether data written on the disk is qualified as written based on an indication from a servo system of the DSD for controlling a position of a head in relation to the disk; and in the event of an unexpected power loss, transferring a portion of unqualified data from the volatile memory to the NVSM, wherein the unqualified data has not been qualified as written. 16. The method of claim 15 , wherein kinetic energy from a rotation of a spindle motor of the DSD for rotating the disk powers the NVSM after the unexpected power loss so as to facilitate the transfer of the unqualified data from the volatile memory to the NVSM. 17. The method of claim 15 , further comprising maintaining an indication of which data stored in the volatile memory is qualified data. 18. The method of claim 17 , further comprising: writing data from the volatile memory in sectors on the disk; and maintaining the indication of which data stored in the volatile memory is qualified data by keeping a count of sectors written on the disk that have been qualified as written. 19. The method of claim 15 , wherein the indication from the servo system indicates whether the data was written within a threshold distance from a center of a track on the disk. 20. The method of claim 15 , wherein the unqualified data includes data that has been unsuccessfully written on the disk and to be rewritten on the disk as a write retry. 21. The method of claim 15 , wherein in transferring the unqualified data from the volatile memory to the NVSM, the method further comprises storing metadata in the NVSM including addresses for the unqualified data. 22. The method of claim 15 , wherein after power-up of the DSD following the unexpected power loss, the method further comprises writing the unqualified data on the disk that was transferred to the NVSM before performing any commands involving the unqualified data. 23. The method of claim 15 , wherein the NVSM includes a first segment for storing unqualified data transferred from the volatile memory after a previous unexpected power loss and a second segment for storing unqualified data transferred from the volatile memory after a current unexpected power loss. 24. A metho