Oligomerization of alpha olefins using metallocene-SSA catalyst systems and use of the resultant polyalphaolefins to prepare lubricant blends

What is claimed: 1. A composition comprising a polyalphaolefin, the polyalphaolefin being produced from a C 6 to C 16 normal alpha olefin comprising at least 82.5 weight percent of a C 8 normal alpha olefin, the polyalphaolefin comprising: a) less than 1 weight % saturated alpha olefin monomer; b) less than 3 weight % saturated dimers; and c) greater than 80 weight % saturated higher oligomers and having i) a 100° C. kinematic viscosity of at least 25 cSt; ii) a viscosity index greater than 160; iii) a pour point less than −35° C.; and iv) no discernable crystallization as determined by differential scanning calorimetry using ASTM D 3418. 2. The composition of claim 1 , wherein the polyalphaolefin comprises: a) less than 0.5 weight % saturated alpha olefin monomer; b) less than 1 weight % saturated dimers; and c) at least 88 weight % saturated higher oligomers. 3. The composition of claim 1 , wherein the polyalphaolefin has a kinematic viscosity from 25 cSt to 225 cSt. 4. The composition of claim 1 , wherein the polyalphaolefin has RPVOT as measured by ASTM D2272 in the presence of 0.5 weight % of an antioxidant of at least 2,000, wherein the antioxidant contains at least 90 weight % N-(dodecylphenyl)naphthalen-1-amine and from greater than 5 weight % to less than 10 weight % N-1-naphthylaniline. 5. The composition of claim 1 , wherein the C 6 to C 16 normal alpha olefin comprises at least 90 weight percent of the C 8 normal alpha olefin. 6. The composition of claim 5 , wherein the polyalphaolefin comprises: a) less than 0.5 weight % saturated alpha olefin monomer; b) less than 1 weight % saturated dimers; and c) at least 88 weight % saturated higher oligomers; and wherein i) the 100° C. kinematic viscosity ranges from 30 cSt to 50 cSt; ii) the viscosity index is greater than 160; and iii) the pour point is less than −40° C. 7. The composition of claim 5 , wherein the polyalphaolefin comprises: a) less than 0.5 weight % saturated alpha olefin monomer; b) less than 1 weight % saturated dimers; and c) at least 88 weight % saturated higher oligomers; and and wherein i) the 100° C. kinematic viscosity ranges from 80 cSt to 140 cSt; ii) the viscosity index is greater than 160; and iii) the pour point is less than −35° C. 8. The composition of claim 5 , wherein the polyalphaolefin has a Bernoulli index less than 1.65. 9. A composition comprising a polyalphaolefin, the polyalphaolefin being produced from a C 6 to C 16 normal alpha olefin comprising at least 80 weight percent of a C 8 normal alpha olefin, the polyalphaolefin comprising: a) less than 1 weight % saturated alpha olefin monomer; b) less than 3 weight % saturated dimers; and c) greater than 80 weight % saturated higher oligomers and having i) a 100° C. kinematic viscosity of at least 25 cSt; ii) a viscosity index greater than 150; and iii) a pour point less than 0° C.; and iv. a Bernoulli index less than 1.65. 10. A composition comprising an alpha olefin oligomer product, the alpha olefin oligomer product being produced from a C 6 to C 16 normal alpha olefin comprising at least 90 weight percent of a C 8 normal alpha olefin, the alpha olefin oligomer product comprising: a) less than 1 weight % residual alpha olefin monomer; b) less than 3 weight % dimers; and c) greater than 80 weight % higher oligomers; and having i) a 100° C. kinematic viscosity of at least 25 cSt; and ii) a viscosity index greater than 170. 11. The composition of claim 10 , wherein the alpha olefin oligomer product comprises: a) less than 0.5 weight % residual alpha olefin monomer; b) less than 1 weight % dimers; and c) greater than 88 weight % higher oligomers; and wherein the alpha olefin oligomer product has i) a 100° C. kinematic viscosity from 30 cSt to 50 cSt; and ii) a viscosity index greater than 170. 12. The composition of claim 10 , wherein the alpha olefin oligomer product comprises: a) less than 0.5 weight % residual alpha olefin monomer; b) less than 1 weight % dimers; and c) greater than 80 weight % higher oligomers; and having i) a 100° C. kinematic viscosity from 80 cSt to 140 cSt; and ii) a viscosity index greater than 175. 13. The composition of claim 9 , wherein the polyalphaolefin has no discernible crystallization as determined by differential scanning calorimetry using ASTM D 3418. 14. The composition of claim 9 , wherein: i) the 100° C. kinematic viscosity ranges from 40 cSt to 80 cSt; ii) the viscosity index ranges from 170 to 220; and iii) the pour point ranges from −30° C. to −90° C. 15. The composition of claim 9 , wherein: i) the 100° C. kinematic viscosity ranges from 80 cSt to 120 cSt; ii) the viscosity index ranges from 170 to 220; and iii) the pour point ranges from −30° C. to −90° C. 16. The composition of claim 9 , wherein: i) the 100° C. kinematic viscosity ranges from 130 cSt to 170 cSt; ii) the viscosity index ranges from 170 to 220; and iii) the pour point ranges from −30° C. to −90° C. 17. The composition of claim 10 , wherein: i) the 100° C. kinematic viscosity ranges from 40 cSt to 80 cSt; and ii) the viscosity index ranges from 175 to 220. 18. The composition of claim 10 , wherein: i) the 100° C. kinematic viscosity ranges from 80 cSt to 120 cSt; and ii) the viscosity index ranges from 175 to 220. 19. The composition of claim 10 , wherein: i) the 100° C. kinematic viscosity ranges from 130 cSt to 170 cSt; and ii) the viscosity index ranges from 175 to 220.