Electrical interconnection system

The invention claimed is: 1. An electrical interconnection system, comprising: a first connector comprising a mating contact comprising one or more superelastic components; and a second, mating component comprising one or more conductive receptacles, wherein the one or more superelastic components deform without yielding within the one or more conductive receptacles to form one or more contact points with the one or more conductive receptacles when the connector is in a mated configuration, and wherein the one or more superelastic components is characterized by a stress-strain curve having a superelastic regime, and deformation of the one or more superelastic components within the superelastic regime results in at least a partial phase transformation of the one or more superelastic components. 2. The electrical interconnection system of claim 1 , wherein the phase transformation of the one or more superelastic components comprises a reversible martensitic phase transformation. 3. The electrical interconnection system of claim 1 , wherein the one or more superelastic components deform in a first direction in the one or more conductive receptacles. 4. The electrical interconnection system of claim 3 , wherein the one or more superelastic components deform in a second direction in the one or more conductive receptacles. 5. The electrical interconnection system of claim 1 , wherein the one or more conductive receptacles are substantially rigid. 6. The electrical interconnection system of claim 1 , wherein the one or more conductive receptacles include one or more compliant members. 7. The electrical interconnection system of claim 1 , wherein deformation of the one or more superelastic components within the one or more conductive receptacles results in a substantially constant impedance between the superelastic components. 8. The electrical interconnection system of claim 1 , further comprising one or more non-superelastic components, wherein the one or more superelastic components are attached to the one or more non-superelastic components. 9. The electrical interconnection system of claim 1 , wherein the second component comprises a printed circuit board, and wherein the one or more conductive receptacles are formed as vias in the printed circuit board. 10. The electrical interconnection system of claim 1 , wherein the one or more superelastic components comprise nickel titanium. 11. An electrical interconnection system, comprising: a first connector comprising one or more superelastic components; and a second, mating connector comprising one or more conductive receptacles, wherein the one or more superelastic components form one or more contact points with the one or more conductive receptacles when the connector is in a mated configuration, wherein the one or more superelastic components is characterized by a stress-strain curve having a superelastic regime, and deformation of the one or more superelastic components within the superelastic regime results in at least a partial phase transformation of the one or more superelastic components wherein the one or more conductive receptacles comprise passages including one or more protrusions positioned such that the one or more superelastic components deflect at the protrusions when the connector is in a mated configuration. 12. The electrical interconnection system of claim 11 , wherein the one or more conductive receptacles comprise passages including one or more protrusions positioned such that the one or more superelastic components deflect at the protrusions when the connector is in a mated configuration, and the one or more protrusions are at least one of pegs, bumps, or angled walls. 13. The electrical interconnection system of claim 11 , wherein the one or more protrusions are arranged along a helical path on the one or more receptacles, such that the one or more superelastic components are deflected along a helical path when the connector is in a mated configuration. 14. The electrical interconnection system of claim 11 , wherein the phase change of the one or more superelastic components comprises a reversible martensitic phase transformation. 15. The electrical interconnection system of claim 11 , wherein the one or more superelastic components comprise nickel titanium.