Fixed cutter drill bit with core fragmentation feature

What is claimed is: 1. A drill bit for obtaining core sample fragments from a subterranean formation, the drill bit comprising: a bit body having a bit centerline and a bit face; a plurality of blades extending radially along the bit face and separated by a plurality of flow courses therebetween, wherein one of the plurality of blades is a coring blade comprising: a substantially vertical surface; and an angled surface, wherein the substantially vertical surface and the angled surface are integrally connected forming a continuous surface; and a plurality of cutting elements disposed on the plurality of blades, wherein one of the plurality of cutting elements is a first cutting element disposed on the coring blade at a first radial position from the bit centerline, wherein one of the plurality of flow courses is an evacuation slot that is positioned across the bit centerline relative to the coring blade; wherein the flow courses and the evacuation slot extend to the same depth into the surface of the bit body. 2. The drill bit according to claim 1 , the coring blade further comprising: a relief disposed between the substantially vertical surface and the angled surface, wherein the substantially vertical surface, the angled surface, and the relief are integrally connected. 3. The drill bit according to claim 1 , wherein a support surface is disposed between the angled surface of the coring blade and the evacuation slot, and integrally connects the angled surface to the evacuation slot. 4. The drill bit according to claim 3 , wherein a conical insert is disposed at the support surface at one of the bit centerline, or between the bit centerline and the first radial position, and wherein the conical insert is embedded in the bit body such that an apex of the conical insert is positioned axially above an intersection of the substantially vertical surface and the angled surface. 5. The drill bit according to claim 1 , wherein the first radial position of the first cutting element is distanced from the bit centerline at a distance having a measurement in a range of 0.05 times a diameter of the drill bit to 0.25 times the diameter of the drill bit. 6. The drill bit according to claim 1 , wherein the substantially vertical surface of the coring blade and the angled surface of the coring blade each comprise a low friction abrasion resistant material, and wherein the low friction abrasion resistant material of the substantially vertical surface is capable of cutting. 7. The drill bit according to claim 6 , wherein the low friction abrasion resistant material is thermally stable polycrystalline diamond (TSP). 8. The drill bit according to claim 1 , wherein the angled surface of the coring blade has an angle in a range of 15° to 20° from the bit centerline. 9. The drill bit according to claim 1 , wherein centrally located adjacent end portions of at least two of the plurality of blades are connected together via a bridge portion. 10. The drill bit according to claim 9 , wherein one of the at least two of the plurality of blades is the coring blade. 11. The drill bit according to claim 1 , wherein the plurality of cutting elements comprises diamond impregnated particles. 12. The drill bit according to claim 1 , wherein the plurality of cutting elements comprises diamond impregnated inserts. 13. The drill bit according to claim 1 , wherein the plurality of cutting elements comprises one or more of: cutters having a substantially planar cutting face; conical cutting elements; and rotatable cutting elements. 14. A drill bit for obtaining core sample fragments from a subterranean formation, the drill bit comprising: a bit body having a bit centerline and a bit face; a plurality of blades extending radially along the bit face and separated by a plurality of flow courses therebetween, wherein one of the plurality of blades is a coring blade, wherein one of the plurality of flow courses is an evacuation slot that is positioned across the bit centerline relative to the coring blade; and a plurality of cutting elements disposed on the plurality of blades, wherein one of the plurality of cutting elements is a first cutting element disposed on the coring blade at a first radial position from the bit centerline, wherein the first cutting element is a conical cutting element embedded in the coring blade such that an apex of the conical cutting element is oriented toward the bit centerline, wherein a support surface is disposed between the coring blade and the evacuation slot, and integrally connects the coring blade to the evacuation slot, wherein a conical insert is disposed proximate the bit centerline at the support surface, and wherein the conical insert is embedded in the bit body such that an apex of the conical insert is positioned axially above the first radial position of the first cutting element. 15. The drill bit according to claim 14 , wherein a profile of the evacuation slot is recessed below the bit body. 16. The drill bit according to claim 14 , wherein the first radial position of the first cutting element is distanced from the bit centerline at a distance having a measurement in a range of 0.05 times a diameter of the drill bit to 0.25 times the diameter of the drill bit. 17. The drill bit according to claim 14 , wherein centrally located adjacent end portions of at least two of the plurality of blades are connected together via a bridge portion. 18. The drill bit according to claim 17 , wherein one of the at least two of the plurality of blades is the coring blade. 19. The drill bit according to claim 14 , wherein the plurality of cutting elements comprises diamond impregnated particles. 20. The drill bit according to claim 14 , wherein the plurality of cutting elements comprises diamond impregnated inserts. 21. The drill bit according to claim 14 , wherein the plurality of cutting elements comprises one or more of: cutters having a substantially planar cutting face; conical cutting elements; and rotatable cutting elements. 22. The drill bit according to claim 14 , wherein the coring blade comprises: a substantially vertical surface; and an angled surface, wherein the substantially vertical surface and the angled surface are integrally connected. 23. The drill bit according to claim 22 , wherein the substantially vertical surface of the coring blade and the angled surface of the coring blade each comprise a low friction abrasion resistant material, and wherein the low friction abrasion resistant material of the substantially vertical surface is capable of cutting. 24. The drill bit according to claim 23 , wherein the low friction abrasion resistant material is thermally stable polycrystalline diamond (TSP). 25. The drill bit according to claim 22 , wherein the angled surface of the coring blade has an angle in a range of 15° to 20° from the bit centerline. 26. The drill bit according to claim 22 , the coring blade further comprising: a relief disposed between the substantially vertical surface and the angled surface, wherein the substantially vertical surface, the angled surface, and the relief are integrally connected. 27. A method of obtaining core sample fragments from a subterranean formation, the method comprising: securing the drill bit according to claim 1 to a lower end of a drill string, wherein one of the