Efficient chiller for a supercritical fluid chromatography pump

What is claimed is: 1 . A supercritical fluid chromatography (SFC) system, comprising: a pumping system configured to drive supercritical carbon dioxide as a mobile phase through a stationary phase for separating compounds of a sample introduced into the mobile phase downstream from the pumping system; and a mobile phase supply configured to supply carbon dioxide gas to the pumping system. 2 . The SFC system of claim 1 , wherein the mobile phase supply comprises a reservoir containing a liquid layer of liquefied carbon dioxide and a head space of carbon dioxide gas separate from the liquid layer, and the pumping system is in fluid communication with the head space. 3 . The SFC system of claim 1 , wherein the pumping system comprises a pump head, and further comprising a pump head chiller assembly configured to liquefy the carbon dioxide gas supplied from the mobile phase supply and deliver liquefied carbon dioxide to the pump head. 4 . The SFC system of claim 3 , wherein the pump head chiller assembly comprises: mobile phase tubing comprising a mobile phase inlet fluidly communicating with the mobile phase supply, a mobile phase outlet fluidly communicating with the pump head, and a multi-turn tubing section between the mobile phase inlet and the mobile phase outlet, wherein the mobile phase tubing is configured to flow a mobile phase through the mobile phase tubing and toward the pump head; and a Peltier element comprising a cool side and an opposing hot side and mounted near the pump head such that the cool side removes heat from the pump head, wherein the mobile phase tubing is in thermal contact with the cool side such that the carbon dioxide gas is liquefied in the mobile phase tubing. 5 . The SFC system of claim 4 , wherein the pump head chiller assembly has a configuration selected from the group consisting of: the pump head chiller assembly comprises a chiller plate arranged on the cool side and mounted in thermal contact with the pump head such that the chiller plate removes heat from the pump head, wherein the mobile phase tubing is interposed between and in thermal contact with the cool side and the chiller plate such that the Peltier element and the chiller plate are configured to liquefy the carbon dioxide gas in the mobile phase tubing, and the cool side is in thermal contact with the chiller plate such that the Peltier element removes heat from the chiller plate; the pump head chiller assembly comprises a first heat exchanger arranged on the hot side and configured to remove heat from the Peltier element; and both of the foregoing. 6 . The SFC system of claim 3 , comprising a fluid-sealed, thermally insulated compartment enclosing the pump head and the pump head chiller assembly. 7 . The SFC system of claim 3 , comprising a first heat exchanger configured to remove heat from the pump head chiller assembly by circulating a coolant, and a second heat exchanger configured to cool the coolant. 8 . The SFC system of claim 3 , wherein: the pump head is a first pump head configured for pressurizing the liquefied carbon dioxide and delivering the pressurized, liquefied carbon dioxide to the second pump head; and the pumping system further comprises a second pump head configured for metering the flow of the pressurized, liquefied carbon dioxide to the stationary phase.