Laser mode hopping detection in a heat-assisted magnetic recording drive

What is claimed is: 1. A method, comprising: performing a write operation using a heat-assisted magnetic recording (HAMR) drive operating at a plurality of temperatures; measuring a metric of write performance subsequent to the write operation at each of the operating temperatures; detecting one or more laser mode hops using the metrics; determining a temperature at which each of the detected mode hops occurred; and storing the temperature for each detected mode hop in a non-volatile memory of the drive. 2. The method of claim 1 , wherein the plurality of temperatures comprise a range of operating temperatures above and below a predefined drive operating temperature. 3. The method of claim 1 , wherein: the plurality of temperatures defines a range of temperatures divided into temperature increments; and the method is performed at each of the temperature increments. 4. The method of claim 3 , wherein the drive is permitted to reach a substantially stead-state temperature at each of the temperature increments before performing the method at each of the temperature increments. 5. The method of claim 1 , wherein the operating temperature of the drive is swept continuously through a predefined range of operating temperatures. 6. The method of claim 1 , wherein performing, measuring, and detecting comprises: writing a full track sequentially during one revolution of a recording disk; measuring a first write performance metric subsequent to writing the full track sequentially; writing a track on a sector basis by which one data sector is written during each of a plurality of disk revolutions; measuring a second write performance metric subsequent to writing the track on the sector basis; and detecting a laser mode hop if the first metric indicates poorer write performance than the second metric relative to a threshold. 7. The method of claim 1 , wherein performing, measuring, and detecting comprises: writing a full track sequentially during one revolution of a recording disk; measuring the metric of write performance for each sector of the written track; calculating a standard deviation of the metrics for all sectors of the written track; and detecting a laser mode hop if the standard deviation exceeds a threshold. 8. The method of claim 1 , wherein performing, measuring, and detecting comprises: writing a full track sequentially during one revolution of a recording disk; measuring the metric of write performance for each sector of the written track during each of a plurality of disk revolutions; averaging the metrics for each sector; determining a particular sector with the poorest average metric; comparing the average metrics of each sector adjacent the particular sector with the poorest average metric; and detecting a laser mode hop if a difference between the poorest average metric and the average metric of either adjacent sector exceeds a threshold. 9. The method of claim 1 , wherein performing, measuring, and detecting comprises: during a first write operation: writing a full track sequentially during one revolution of a recording disk; measuring a first metric of write performance for each sector of the written track during each of a plurality of disk revolutions; averaging the first metrics for each sector; during a second write operation: writing a full track sequentially during a plurality of consecutive revolutions of the recording disk; measuring a second metric of write performance for each sector of the written track during each of a plurality of consecutive disk revolutions; averaging the second metrics for each sector; comparing the first average metric and the second average metric for each sector; determining the particular sector having the largest difference between first and second average metrics; and detecting a laser mode hop if largest difference exceeds a threshold. 10. The method of claim 1 , comprising modifying operation of the HAMR drive in response to an operating temperature of the drive approaching one of the stored temperatures. 11. The method of claim 1 , comprising modifying a temperature of a laser diode of the HAMR drive in response to an operating temperature of the drive approaching one of the stored temperatures. 12. The method of claim 1 , comprising, in response to the operating temperature of the drive approaching one of the stored temperatures: adjusting a laser bias current supplied to a laser diode of the HAMR drive; and adjusting an operating current supplied to the laser diode such that a total laser current remains constant during adjustment of the laser bias current. 13. An apparatus, comprising: a heat-assisted magnetic recording (HAMR) drive comprising at least a writer, a laser diode, a reader, a controller, and a non-volatile memory; the controller configured to: perform a write operation at a plurality of temperatures; measure a metric of write performance subsequent to the write operation at each of the operating temperatures; detect one or more laser mode hops using the metrics; determine a temperature at which each of the detected mode hops occurred; and store the temperature for each detected mode hop in the memory. 14. The apparatus of claim 13 , wherein the controller is configured to: write a full track sequentially during one revolution of a recording disk; measure a first write performance metric subsequent to writing the full track sequentially; write a track on a sector basis by which one data sector is written during each of a plurality of disk revolutions; measure a second write performance metric subsequent to writing the track on the sector basis; and detect a laser mode hop if the first metric indicates poorer write performance than the second metric relative to a threshold. 15. The apparatus of claim 13 , wherein the controller is configured to: write a full track sequentially during one revolution of a recording disk; measure the metric of write performance for each sector of the written track; calculate a standard deviation of the metrics for all sectors of the written track; and detect a laser mode hop if the standard deviation exceeds a threshold. 16. The apparatus of claim 13 , wherein the controller is configured to: write a full track sequentially during one revolution of a recording disk; measure the metric of write performance for each sector of the written track during each of a plurality of disk revolutions; average the metrics for each sector; determine a particular sector with the poorest average metric; compare the average metrics of each sector adjacent the particular sector with the poorest average metric; and detect a laser mode hop if a difference between the poorest average metric and the average metric of either adjacent sector exceeds a threshold. 17. The apparatus of claim 13 , wherein the controller is configured to: during a first write operation: write a full track sequentially during one revolution of a recording disk; measure a first metric of write performance for each sector of the written track during each of a plurality of disk revolutions; average the first metrics for each sector; during a second write operation: write a full track sequentially during a plurality of consecutive revolutions of the recording disk; measure a second metric of write performance for each sector of the written track during each of a plurality of consecutive disk revolutions; average the second metrics for each sector; compare the first average metric and the second average metric for each