Inner cutter for drilling

What is claimed is: 1. A drill bit comprising: a bit body defining a bit rotational axis; a blade attached to the bit body; and a cutter comprising a cutting arc on a cutting surface of the cutter, wherein the cutter comprises at least one relief comprising a first curved edge deviating from an outer edge of the cutter; a straight edge coupled with the first curved edge, the straight edge configured to generate one or more micro cores, a second curved edge coupled with the straight edge and having an end that interrupts the cutting arc, the second curved edge configured to fracture the one or more micro cores via side load forces of the drill bit exerted on the one or more micro cores; and a third curved edge curving into the outer edge of the cutter and coupled to the second curved edge. 2. The drill bit of claim 1 , wherein the cutter is an innermost cutter, and wherein the innermost cutter is closer to the bit rotational axis than a second cutter mounted on the blade. 3. The drill bit of claim 1 , wherein the first curved edge and the third curved edge are convex with respect to a center of the cutter. 4. The drill bit of claim 1 , wherein the second curved edge is concave with respect to a center of the cutter. 5. The drill bit of claim 1 , wherein a length of the straight edge is proportional to a diameter of the cutter. 6. The drill bit of claim 1 , wherein the first curved edge has a first end positioned at a first end of the at least one relief, wherein the straight edge has a first end adjacent to a second end of the first curved edge, and wherein the second curved edge has a first end adjacent to a second end of the straight edge, wherein a second end of the second curved edge is positioned at a second end of the at least one relief. 7. A method comprising: generating, via operation of a drill bit, one or more micro cores as part of a drilling process used to extend a borehole into a foundation material, wherein the drill bit comprises a bit body defining a bit rotational axis, a blade attached to the bit body, and a cutter comprising a cutting arc on a cutting surface of the cutter, wherein the cutter comprises at least one relief comprising a first curved edge deviating from an outer edge of the cutter, a straight edge coupled with the first curved edge, the straight edge configured to generate the one or more micro cores, a second curved edge coupled with the straight edge and having an end that interrupts the cutting arc, the second curved edge configured to fracture the one or more micro cores via side load forces of the drill bit exerted on the one or more micro cores, and a third curved edge curving into the outer edge of the cutter and coupled to the second curved edge. 8. The method of claim 7 , further comprising: fracturing each of the one or more micro cores by applying a side load force generated by the cutting arc and applied to a side portion of each of the one or more micro cores as each micro core is generated by operating the drill bit; and after fracturing a given micro core of the one or more micro cores, urging the given micro core away from a bottom area of the drill bit. 9. The method of claim 7 , wherein the first curved edge and the third curved edge are convex. 10. The method of claim 7 , wherein a length of the straight edge is proportional to a diameter of the cutter. 11. The method of claim 10 , wherein the first curved edge has a first end positioned at a first end of the at least one relief, wherein the straight edge has a first end adjacent to a second end of the first curved edge, and wherein the second curved edge has a first end adjacent to a second end of the straight edge, wherein a second end of the second curved edge is positioned at a second end of the at least one relief. 12. The method of claim 10 , wherein the second curved edge is concave. 13. A cutter comprising: a cutting surface; a cutting arc; and at least one relief having an end that interrupts the cutting arc, wherein the at least one relief comprises a first curved edge deviating from an outer edge of the cutter; a straight edge coupled with the first curved edge, the straight edge configured to generate one or more micro cores a second curved edge coupled with the straight edge and having an end that interrupts the cutting arc, the second curved edge configured to fracture the one or more micro cores via side load forces of the drill bit exerted on the one or more micro cores; and a third curved edge curving into the outer edge of the cutter and coupled to the second curved edge. 14. The cutter of claim 13 , wherein a length of the straight edge is proportional to a diameter of the cutter. 15. The cutter of claim 13 , wherein the at least one relief is a first relief, and wherein the cutter comprises a second relief and a third relief, wherein each of the second relief and the third relief comprise a respective first curved edge, a respective straight edge, a respective second curved edge, and a respective third curved edge. 16. The cutter of claim 13 , wherein the second curved edge is concave. 17. The cutter of claim 13 , wherein the first curved edge has a first end positioned at a first end of the at least one relief, wherein the straight edge has a first end adjacent to a second end of the first curved edge, and wherein the second curved edge has a first end adjacent to a second end of the straight edge, wherein a second end of the second curved edge is positioned at a second end of the at least one relief.