Reducing thermal gradients in chromatography columns with sub-ambient cooling/super-ambient heating and radial distribution

The invention claimed is: 1. A chromatography system, comprising: a chromatography column having an inlet, an outlet and a stationary phase situated in the column; a mobile phase cooler situated before the inlet of the column for cooling a mobile phase before the mobile phase enters the chromatography column; a calculator for estimating an amount of heating of the mobile phase due to frictional heating that is expected as the mobile phase passes over the stationary phase from the inlet to the outlet; a controller configured to control the mobile phase cooler so that the mobile phase cooler cools the mobile phase to a target temperature that is colder than an ambient temperature surrounding the column to fully offset the estimated amount of heating that was estimated by the calculator, the target temperature being chosen as a difference between a current temperature of the mobile phase at the inlet and the estimated amount of heating. 2. The chromatography system of claim 1 , further comprising an injector for injecting an analyte in a centrally located portion of the inlet but not in outer radial portions of the inlet. 3. The chromatography system of claim 2 , wherein the injector is configured for injecting the mobile phase without the analyte in the outer radial portions of the inlet. 4. The chromatography system of claim 2 , wherein the injector includes injector ports radially distributed across the inlet of the chromatography column. 5. The chromatography system of claim 1 , wherein the mobile phase is one of a gas, a liquid or a fluid. 6. The chromatography system of claim 1 , wherein the estimating is based on one or more of flow rate, viscosity of the mobile phase, heat capacity of the mobile phase and the chromatography column, current ambient temperature, temperature of the mobile phase prior to cooling, pressure delta or dimensions of the chromatography column. 7. The chromatography system of claim 1 , wherein the chromatography column is not insulated. 8. The chromatography system of claim 1 , further comprising insulation for insulating at least a portion of the chromatography column. 9. The chromatography system of claim 1 , wherein the calculator is part of the controller. 10. The chromatography column of claim 1 , wherein the calculator calculates a magnitude of axial heating of the mobile phase. 11. The chromatography column of claim 10 , wherein the magnitude of axial heating is a difference between the temperature of the mobile phase at the outlet of the chromatography column and the temperature of the mobile phase at the inlet of the chromatography column. 12. The chromatography column of claim 1 , wherein the estimated amount of heating is calculated by calculating a logarithmic function of volumetric flow rate of the mobile phase and pressure drop along the chromatography column. 13. The chromatography column of claim 12 , wherein the logarithmic function is a natural logarithmic function of a product of the volumetric flow rate and the pressure drop.