Introducer hub assembly having cross-slit seal

What is claimed is: 1. A hemostatic seal, comprising: a seal body including a proximal section having a conical body and a distal section having a cylindrical body, a tapered bore extending longitudinally through the conical body, and a slit extending longitudinally through the cylindrical body from the tapered bore; and an elastomeric ring disposed about the cylindrical body radially around the slit to exert a radially compressive force uniformly distributed about the distal section to bias the distal section inward, wherein the conical body and the elastomeric ring are harder than the cylindrical body. 2. The hemostatic seal of claim 1 , wherein the elastomeric ring includes a circular ring. 3. The hemostatic seal of claim 2 , wherein the circular ring is bonded to the distal section. 4. The hemostatic seal of claim 1 , wherein the tapered bore narrows in a distal direction. 5. The hemostatic seal of claim 1 , wherein the conical body and the elastomeric ring are formed from a first material, and wherein the cylindrical body is formed from a second material different than the first material. 6. The hemostatic seal of claim 5 , wherein the first material has a higher durometer than the second material. 7. The hemostatic seal of claim 1 , wherein a second slit extends through the cylindrical body, and wherein the second slit crosses the slit. 8. An introducer hub assembly, comprising: an introducer hub having a longitudinal axis; a hub cap coupled to a proximal end of the introducer hub; and a hemostatic seal between the hub cap and the introducer hub, wherein the hemostatic seal includes a seal body including a proximal section having a conical body and a distal section having a cylindrical body, a tapered bore extending longitudinally through the conical body, and a slit extending longitudinally through the cylindrical body from the tapered bore, and an elastomeric ring disposed about the cylindrical body radially around the slit to exert a radially compressive force uniformly distributed about the distal section to bias the distal section inward, wherein the conical body and the elastomeric ring are harder than the cylindrical body. 9. The introducer hub assembly of claim 8 , wherein the elastomeric ring includes a circular ring. 10. The introducer hub assembly of claim 9 , wherein the circular ring is bonded to the distal section. 11. The introducer hub assembly of claim 8 , wherein the tapered bore narrows in a distal direction. 12. The introducer hub assembly of claim 8 , wherein the conical body and the elastomeric ring are formed from a first material, and wherein the cylindrical body is formed from a second material different than the first material. 13. A leadless pacemaker system, comprising: a deflectable catheter; a guide catheter mounted on the deflectable catheter; and an introducer hub assembly mounted on the guide catheter, wherein the introducer hub assembly includes a hemostatic seal including a seal body including a proximal section having a conical body and a distal section having a cylindrical body, a tapered bore extending longitudinally through the conical body, and a slit extending longitudinally through the cylindrical body from the tapered bore, and an elastomeric ring disposed about the cylindrical body radially around the slit to exert a radially compressive force uniformly distributed about the distal section to bias the distal section inward, wherein the conical body and the elastomeric ring are harder than the cylindrical body. 14. The leadless pacemaker system of claim 13 , wherein the elastomeric ring includes a circular ring. 15. The leadless pacemaker system of claim 14 , wherein the circular ring is bonded to the distal section. 16. The leadless pacemaker system of claim 13 , wherein the conical body includes a tapered inner surface around the tapered bore, and wherein the tapered bore narrows in a distal direction. 17. The leadless pacemaker system of claim 13 , wherein the conical body and the elastomeric ring are formed from a first material, and wherein the cylindrical body is formed from a second material different than the first material.