Apparatus and method for introducing sample into a separation unit of a chromatography system without disrupting a mobile phase

What is claimed: 1. A system for introducing a sample into a mobile phase directed to a separation unit of a chromatography system, the system comprising: a mobile phase pumping system configured to meter a combined solvent as the mobile phase, the mobile phase comprising a strong solvent and a weak solvent, and pressurize the mobile phase, the mobile phase pumping system further configured to direct a flow of the pressurized mobile phase to the separation unit; a booster pump configured to pressurize the weak solvent and deliver a first portion of a flow of the pressurized weak solvent to the mobile phase pumping system and a second portion of the flow of the pressurized weak solvent to a sample loop; and a valve assembly disposed upstream from the separation unit and configured to pressurize the sample loop loaded with the sample using the second portion of the flow of the pressurized weak solvent, the second portion supplied to the valve assembly being pressurized by the booster pump, and subsequently to switch the pressurized sample loop into the pressurized mobile phase, thereby introducing the pressurized sample into the pressurized mobile phase prior to introduction of the pressurized sample into the separation unit; wherein the mobile phase from the mobile phase pumping system remains pressurized while the sample loop is being pressurized by the booster pump. 2. The system of claim 1 , wherein the pressurized sample is introduced into the mobile phase without interrupting delivery of the mobile phase to the separation unit. 3. The system of claim 1 , further comprising: means for controlling loading of the sample into the sample loop. 4. The system of claim 3 , wherein the means for controlling loading of the sample into the sample loop comprises an autosampler including a needle for insertion into a vial containing the sample, a needle seat for interfacing the needle with the sample loop, and a metering device for drawing the sample from the vial via the needle. 5. The system of claim 3 , wherein the sample loop comprises a retentive device, column, or solid phase extraction (SPE) cartridge. 6. The system of claim 5 , wherein the means for controlling loading into the sample loop comprises an SPE interface configured to remove at least some sample solvent of the sample from the sample loop. 7. The system of claim 1 , wherein the separation unit comprises a chromatographic column comprising a stationary phase. 8. The system of claim 7 , wherein the weak solvent comprises carbon dioxide, and the strong solvent comprises methanol or other organic solvent. 9. The system of claim 1 , wherein the sample loop comprises a needle and a needle seat for the needle, the needle being configured for insertion into a vial of the sample to enable loading of the sample loop with the sample. 10. A system for introducing a sample into a mobile phase directed to a separation unit of a chromatography system, the system comprising: a booster pump configured to pressurize a solvent and to deliver a first portion of the pressurized solvent to a mobile phase pumping system and a second portion of the pressurized solvent to a sample loop; the mobile phase pumping system being configured to meter the first portion of the pressurized solvent supplied from the booster pump as at least a portion of the mobile phase, to pressurize the mobile phase, and to direct a flow of the pressurized mobile phase to the separation unit; a valve assembly disposed upstream of the separation unit and configured to pressurize a sample loop loaded with the sample using the second portion of the pressurized solvent, the second portion supplied to the valve assembly being pressurized by the booster pump, and to subsequently introduce the pressurized sample into the pressurized mobile phase, thereby pressurizing the sample prior to introduction into the pressurized mobile phase; wherein the mobile phase from the mobile phase pumping system remains pressurized while the sample loop is being pressurized by the booster pump. 11. The system of claim 10 , wherein a pressure of the solvent pressurized by the booster pump is controlled to be below an output pressure of the mobile phase pumping system.