Proximity heating cell assembly for use in a high-pressure cubic press

What is claimed is: 1. A cell assembly for use in a high-pressure cubic press, comprising: a first can assembly that holds a first diamond volume, the first can assembly including a first end surface in proximity to the first diamond volume, the first can assembly including refractory metal that is in direct contact with the first diamond volume; a second can assembly that holds a second diamond volume, the second can assembly including second end surface in proximity to the second diamond volume, the second can assembly including refractory metal that is in direct contact with the second diamond volume; at least one heating element positioned between the first can assembly and the second can assembly, the at least one heating element including a length and a thickness, wherein the length is greater than the thickness, the at least one heating element including a major surface generally opposing and positioned adjacent to the first end surface of the first can assembly and adjacent to the second end surface of the second can assembly, the at least one heating element positioned and configured to heat the first diamond volume and the second diamond volume; at least one pressure transmitting medium including salt and extending about the first can assembly and the second can assembly, wherein a cross-section of the cell assembly includes the first can assembly and the second can assembly being positioned laterally nearest to the at least one pressure transmitting medium; and a gasket medium defining a receiving space that receives the first can assembly, the second can assembly, the at least one heating element, and the at least one pressure transmitting medium therein, wherein a cross-section of the cell assembly includes the at least one pressure transmitting medium being positioned laterally nearest to the gasket medium. 2. The cell assembly of claim 1 , wherein the at least one heating element comprises a disc, a washer, or an annular ring having a center generally aligned with a center of the diamond volume. 3. The cell assembly of claim 1 , wherein the major surface of the at least one heating element is generally parallel to a top or bottom surface of a first substrate that is positioned adjacent to the first diamond volume. 4. The cell assembly of claim 3 , wherein the major surface of the at least one heating element is adjacent to the diamond volume. 5. The cell assembly of claim 1 , wherein the at least one heating element comprises a graphite disc, a washer, or an annular ring. 6. The cell assembly of claim 5 , wherein the first diamond volume includes a first plurality of diamond particles positioned adjacent to a first substrate and the second diamond volume includes a second plurality of diamond particles positioned adjacent to a second substrate, and wherein the graphite disc, the washer, or the annular ring is positioned between the first can assembly and the second can assembly. 7. The cell assembly of claim 6 , further comprising: a proximal electrical contact electrically contacting the first can assembly at a proximal region thereof; and a distal electrical contact electrically contacting the second can assembly at a distal region thereof. 8. The cell assembly of claim 6 , further comprising: a first side electrical contact electrically contacting a proximal surface of the graphite disc, the washer, or the annular ring; and a second side electrical contact electrically contacting a distal surface of the graphite disc, the washer, or the annular ring. 9. The cell assembly of claim 1 , further comprising: a thermocouple near the at least one heating element, the thermocouple configured to measure a temperature of the at least one heating element. 10. The cell assembly of claim 1 , further comprising: a first heating element including a distal surface adjacent to first end surface of the first can assembly; and a second heating element including a proximal surface adjacent to the second end surface of the second can assembly. 11. The cell assembly of claim 1 , wherein the at least one of the first can assembly or the second can assembly comprises an open top cup including a receiving space that holds the first or second diamond volume and at least a portion of a substrate. 12. The cell assembly of claim 1 , wherein the at least one pressure transmitting medium comprises a substantially tubular liner including salt. 13. The cell assembly of claim 1 , wherein the gasket medium comprises at least one gasket material selected from a group consisting of a naturally occurring gasket material and a synthetic gasket material. 14. The cell assembly of claim 1 , wherein the first or second diamond volume comprises diamond particles or a preformed polycrystalline diamond volume. 15. A cell assembly for use in a high-pressure cubic press, comprising: a first can assembly that holds a first diamond volume positioned adjacent to a first substrate, the first can assembly including a distal end and a proximal end, the first can assembly including refractory metal that is in direct contact with the first diamond volume; a second can assembly that holds a second diamond volume positioned adjacent to a second substrate, the first can assembly including a distal end and a proximal end, the second can assembly including refractory metal that is in direct contact with the second diamond volume; a heating element positioned between the first diamond volume and the second diamond volume, in a manner that a distal end of the heating element is positioned adjacent to the proximal end of the first can assembly, and a proximal end of the heating element is positioned adjacent to the distal end of the second can assembly, the heating element positioned and configured to heat at least one of the first diamond volume or the second diamond volume; a pressure transmitting medium including salt and extending about at least one of the first can assembly or the second can assembly, wherein a cross-section of the cell assembly includes the first can assembly and the second can assembly being positioned laterally nearest to the at least one pressure transmitting medium; and a gasket medium defining a receiving space that receives the first can assembly, the second can assembly, the heating element, and the pressure transmitting medium therein, wherein a cross-section of the cell assembly includes the pressure transmitting medium being positioned laterally nearest to the gasket medium. 16. The cell assembly of claim 15 , wherein the heating element is a first heating element, and further comprising: a second heating element positioned between the first diamond volume and the second diamond volume, wherein the second heating element is configured to heat at least one of the first diamond volume or the second diamond volume. 17. The cell assembly of claim 16 , further comprising: an insulator positioned between the first heating element and the second heating element. 18. A method, comprising: disposing at least one a first can assembly and a second can assembly within at least one pressure transmitting medium that extends about the at least one first can assembly and the second can assembly, the at least one each of the first can assembly and the second can assembly including an end surface and holding a diamond volume, the at least one each of the first can assembly and the second can assembly including refractory metal that is in direct contact with the diamond volume; positioning a substantially planar heating element adjacent to the end surface of the at leas