Sidewall treatment for cooling and aerodynamics

We claim: 1. A pneumatic tire comprising: a tread defining an outward surface of the tire in a radial direction, extending around the tire in a circumferential direction, extending in a lateral direction mutually perpendicular to both the radial direction and the circumferential direction, the tread having a first lateral side, and a second lateral side opposite the first lateral side in the lateral direction; a first sidewall extending radially inwardly along a curved path from the first lateral side of the tread, to a first bead, the first sidewall defining a first lateral surface having a first maximum lateral extent a second sidewall extending radially inwardly along a curved path from the second lateral side of the tread, to a second bead, the second sidewall defining a second lateral surface having a second maximum lateral extent; a belt extending under the tread in the circumferential direction and in the lateral direction from a first belt edge to a second belt edge; a first dimpled pattern surface treatment etched around the tire circumferentially, and from the first maximum lateral extent radially outward and laterally inward over the first belt edge and onto the tread; and a second dimpled pattern surface treatment etched around the tire circumferentially, and extending from the second maximum lateral extent radially outward and laterally inward over the second belt edge and onto the tread; and wherein: 1) each dimpled pattern surface treatment is adapted to modify temperature in the following way: reduce steady state operating temperatures of the sidewalls by at least 3 degrees Fahrenheit when the tire is operated at 180 mph or greater under windless conditions; 2) the tire is a race tire adapted for safe sustained operation at speeds in excess of 180 mph 3) the tread is partially a slick; and 4) the race tire is adapted for safe sustained operation at camber angles below −4 degrees. 2. The pneumatic tire of claim 1 , wherein each dimpled pattern surface treatment is adapted to modify air flow and temperature in the following ways: (a) modify an air flow over the tire at speeds between 100 and 200 mph to turbulent flow, and (b) reduce steady state operating temperatures of the sidewalls by at least 8 degrees Fahrenheit when the tire is operated at 200 mph or greater under windless conditions. 3. The pneumatic tire of claim 1 , wherein each dimpled pattern surface treatment is adapted to modify air flow and temperature in the following ways: (a) modify an air flow over the tire at speeds between 150 and 200 mph to turbulent flow, and (b) reduce steady state operating temperatures of the sidewalls by at least 9 degrees Fahrenheit when the tire is operated at 218 mph or greater under windless conditions. 4. The pneumatic tire of claim 1 , wherein each dimpled pattern surface treatment comprises a plurality of dimples less than 0.5 millimeter deep. 5. The pneumatic tire of claim 1 , wherein all dimples are: less than 0.5 millimeter deep; circular; and have a diameter of less than 6 millimeters.