Heat-assisted magnetic recording (HAMR) medium including a split heat-sink structure (SHSS)

What is claimed is: 1. A heat-assisted magnetic recording (HAMR) medium, comprising: a substrate; a split heat-sink structure (SHSS), comprising: a first heat-sink layer disposed on the substrate; a heat-sink break layer (HSBL) disposed on the first heat-sink layer; and a second heat-sink layer disposed on the HSBL; and a magnetic recording layer disposed on the SHSS, wherein a thermal resistance of the HSBL is greater than a thermal resistance of the first heat-sink layer, and the thermal resistance of the HSBL is greater than a thermal resistance of the second heat-sink layer. 2. The HAMR medium of claim 1 , wherein the HSBL comprises two phases comprising a first-phase material and a second-phase material. 3. The HAMR medium of claim 2 , wherein a thermal conductivity of the first-phase material is greater than a thermal conductivity of the second-phase material. 4. The HAMR medium of claim 2 , wherein the first-phase material comprises columnar grains. 5. The HAMR medium of claim 2 , wherein the first-phase material is epitaxially matched to at least one of a first heat-sink material of the first heat-sink layer and a second heat-sink material of the second heat-sink layer. 6. The HAMR medium of claim 1 , wherein the HSBL comprises a single phase material. 7. The HAMR medium of claim 1 , wherein the HSBL comprises CoX, wherein X is a second constituent selected from the group consisting of Cr, Pt, Ag, Ru and combinations thereof. 8. A heat-assisted magnetic recording (HAMR) medium, comprising: a substrate; a split heat-sink structure (SHSS), comprising: a first heat-sink layer disposed on the substrate; a heat-sink break layer (HSBL) disposed on the first heat-sink layer; and a second heat-sink layer disposed on the HSBL; and a magnetic recording layer disposed on the SHSS, wherein the HSBL comprises CoX, wherein X is a second constituent selected from the group consisting of Cr, Pt, Ag, Ru and combinations thereof, and wherein the HSBL comprises two phases, wherein a first phase material comprises the CoX and a second phase material comprises a third constituent, Y, selected from the group consisting of SiO 2 , SiO x , MgO, Cr 2 O 3 , CrO x , HfO 2 , ZrO 2 , TiO 2 , TiO x , Ta 2 O 5 , TaO x , WO 3 , WO x , and combinations thereof. 9. A heat-assisted magnetic recording (HAMR) medium, comprising: a substrate; a split heat-sink structure (SHSS), comprising: a first heat-sink layer disposed on the substrate; a heat-sink break layer (HSBL) disposed on the first heat-sink layer; and a second heat-sink layer disposed on the HSBL; and a magnetic recording layer disposed on the SHSS, wherein the HSBL comprises CoX, wherein X is a second constituent selected from the group consisting of Cr, Pt, Ag, Ru and combinations thereof, and wherein the CoX has a substantially hexagonal close-packed (HCP) crystal structure, and a (0002) preferred orientation. 10. A heat-assisted magnetic recording (HAMR) medium, comprising: a substrate; a split heat-sink structure (SHSS), comprising: a first heat-sink layer disposed on the substrate; a heat-sink break layer (HSBL) disposed on the first heat-sink layer; and a second heat-sink layer disposed on the HSBL; and a magnetic recording layer disposed on the SHSS, wherein the HSBL comprises a mixture of a first phase and a second phase, wherein the first phase comprises a first-phase material comprising a metallic material with a columnar structure, and the second phase comprises a second-phase material comprising a material that is disposed between the grains of the first phase material. 11. The HAMR medium of claim 1 , wherein a thickness of the first heat-sink layer is between about 5 nanometers (nm) to about 50 nm, a thickness of the HSBL is between about 1 nm to about 10 nm, and a thickness of the second heat-sink layer is between about 50 nm to about 100 nm. 12. The HAMR medium of claim 1 , wherein a thickness of the first heat-sink layer is between about 50 nm to about 100 nm, a thickness of the HSBL is between about 1 nm to about 10 nm, and a thickness of the second heat-sink layer is between about 5 nm to about 50 nm. 13. A heat-assisted magnetic recording (HAMR) medium, comprising: a substrate; a split heat-sink structure (SHSS), comprising: a first heat-sink layer disposed on the substrate; a heat-sink break layer (HSBL) disposed on the first heat-sink layer; and a second heat-sink layer disposed on the HSBL; and a magnetic recording layer disposed on the SHSS, wherein the first heat-sink layer and the second heat-sink layer comprise Ru, and the HSBL comprises a material selected from the group consisting of CoCrSiO 2 , CoPtSiO 2 , CoAgSiO 2 , CoRuSiO 2 , CoCrTiO 2 , CoPtTiO 2 , CoAgTiO 2 , CoRuTiO 2 , CoCr, CoPt, CoAg, and CoRu. 14. A heat-assisted magnetic recording (HAMR) medium, comprising: a substrate; a split heat-sink structure (SHSS), comprising: a first heat-sink layer disposed on the substrate; a heat-sink break layer (HSBL) disposed on the first heat-sink layer; and a second heat-sink layer disposed on the HSBL; a magnetic recording layer disposed on the SHSS; an adhesion layer disposed between the substrate and the SHSS; an amorphous underlayer (AUL) disposed on the SHSS; an orientation-control layer disposed between the AUL and the magnetic recording layer; and an overcoat layer disposed on the magnetic recording layer. 15. The HAMR medium of claim 1 , wherein the HAMR medium is incorporated into a HAMR disk to include the HAMR medium. 16. The HAMR medium of claim 1 , wherein the HAMR medium is incorporated into a HAMR data storage device, comprising: a HAMR disk including the HAMR medium; a HAMR slider including a slider substrate, the HAMR slider configured to fly over the HAMR disk; and a HAMR head disposed on the slider substrate, wherein the HAMR head includes: a write element configured to write data to the HAMR disk; and a read element configured to read data from the HAMR disk; and a laser disposed on the HAMR head, wherein the laser is configured to raise the temperature of the HAMR medium to reduce the coercivity thereof at a location on the HAMR disk whereat the write element is configured to write data. 17. The HAMR medium of claim 16 , wherein the data storage device comprises a hard-disk drive (HDD). 18. A method for making a HAMR medium for heat assisted magnetic recording (HAMR), comprising: providing a substrate; depositing a split heat-sink structure (SHSS), comprising: depositing first heat-sink layer on the substrate; depositing heat-sink break layer (HSBL) on the first heat-sink layer; and depositing second heat-sink layer on the HSBL; and depositing a magnetic recording layer on the SHSS, wherein a thermal resistance of the HSBL is greater than a thermal resistance of the first heat-sink layer, and the thermal resistance of the HSBL is greater than a thermal resistance of the second heat-sink layer. 19. A method for making a HAMR medium for heat assisted magnetic recording (HAMR), comprising: placing a substrate in a thin-film deposition tool; depositing a split heat-sink structure (SHSS), comprising: depositing first heat-sink layer on the substrate; depositing heat-sink break layer (HSBL) on the first heat-sink layer; and depositing second heat-sink layer on the HSBL; and depositing a magnetic recording layer on the SHSS, wherein the HSBL comprises a mixture of a first phase and a second phase, wherein the first phase comprises a first-phase material