Dampening risers for parachutes

What is claimed is: 1. A suspension line assembly for a parachute, comprising: a plurality of suspension lines bound together at a confluence; a dampening riser extending between the confluence and an attachment location, the dampening riser at least partially formed from a set of suspension lines in the plurality of suspension lines; wherein the dampening riser comprises a first length in a stowed position and the dampening riser is configured to extend to a second length in a deployed position in response to a tensile force applied to the dampening riser so as to dampen the tensile force. 2. The suspension line assembly of claim 1 , wherein the first length is less than the second length. 3. The suspension line assembly of claim 2 , wherein the first length is at least ten percent less than the second length. 4. The suspension line assembly of claim 1 , wherein the dampening riser comprises a webbing and a thread holding the webbing in a folded position, wherein the thread is configured to tear in response to the dampening riser moving to the deployed position. 5. The suspension line assembly of claim 1 , wherein the dampening riser comprises a webbing and a thread holding the webbing in a compressed position, wherein the thread is configured to tear in response to the dampening riser moving to the deployed position. 6. The suspension line assembly of claim 1 , wherein the dampening riser comprises a fully oriented yarn (FOY) webbing and a partially oriented yarn (POY), wherein the FOY webbing is held in a compressed position by the POY when the dampening riser is in the stowed position, wherein the POY is configured to plastically deform in response to the dampening riser moving to the deployed position. 7. The suspension line assembly of claim 1 , wherein the dampening riser comprises a partially oriented yarn (POY) webbing, wherein the POY webbing is configured to plastically deform in response to the dampening riser moving to the deployed position. 8. The suspension line assembly of claim 1 , further comprising a second riser and a second dampening riser, the second riser extending between the confluence and a second attachment location, wherein the second dampening riser comprises the first length in the stowed position and the second dampening riser is configured to extend to the second length in the deployed position in response to a second tensile force applied to the second dampening riser so as to dampen the second tensile force. 9. A parachute, comprising: a canopy; and a suspension line assembly coupled to the canopy, the suspension line assembly comprising: a plurality of suspension lines bound together at a confluence via one of weaving or stitching; a first dampening riser coupled to the confluence; a second dampening riser coupled to the confluence; a first riser formed from a first set of the plurality of suspension lines; a second riser formed from a second set of the plurality of suspension lines, wherein: the first dampening riser is coupled in parallel with the first riser, and the second dampening riser is coupled in parallel with the second riser, the first dampening riser comprises a first length in a stowed position and the first dampening riser is configured to extend to a second length in response to the canopy being deployed, the first dampening riser comprises a fully oriented yarn (FOY) webbing and a partially oriented yarn (POY), wherein the FOY webbing is held in a compressed position by the POY when the first dampening riser is in the stowed position, wherein the POY is configured to plastically deform in response to the first dampening riser moving to a deployed position. 10. The parachute of claim 9 , wherein the first dampening riser extends to the second length in response to a tensile force applied to the dampening riser. 11. The parachute of claim 10 , wherein the first length is less than the second length. 12. The parachute of claim 11 , wherein the first length is at least ten percent less than the second length. 13. The parachute of claim 9 , wherein the first dampening riser comprises a webbing and a thread holding the webbing in a folded position, wherein the thread is configured to tear in response to the first dampening riser moving to the deployed position. 14. The parachute of claim 9 , wherein the first dampening riser comprises a webbing and a thread holding the webbing in the compressed position, wherein the thread is configured to tear in response to the first dampening riser moving to the deployed position. 15. A method of making a parachute, comprising: forming a first riser by binding a first set of suspension lines together; forming a second riser by binding a second set of suspension lines together; forming a confluence using the first set of suspension lines and the second set of suspension lines; coupling a first dampening riser in parallel with the first riser between the confluence and a first attachment location of the first riser; and coupling a second dampening riser in parallel with the second riser between the confluence and a second attachment location of the second riser, wherein the first dampening riser and the second dampening riser each comprise a fully oriented yarn (FOY) webbing and a partially oriented yarn (POY), wherein the FOY webbing of the first dampening riser is held in a compressed position by the POY when the first dampening riser is in a stowed position, wherein the POY is configured to plastically deform in response to the first dampening riser moving to a deployed position. 16. The method of claim 15 , further comprising coupling a canopy to the first set of suspension lines and the second set of suspension lines. 17. The method of claim 15 , further comprising forming the first dampening riser and the second dampening riser, wherein a length of the first dampening riser is less than that of the first riser. 18. The parachute of claim 9 , wherein the first riser comprises a third length that is greater than the first length of the first dampening riser in the stowed position.