Synchronised variation of source conditions of an atmospheric pressure chemical ionisation mass spectrometer coupled to a gas chromatograph to improve stability during analysis

The invention claimed is: 1. A mass spectrometer comprising: a gas chromatography separation device; an atmospheric pressure ionisation ion source; and a control system arranged and adapted: (i) to operate said atmospheric pressure ionisation ion source at one or more first settings for a first period of time whilst one or more solvents elute from said gas chromatography separation device during a solvent front free of analytes which is prior to the elution of one or more analytes from said gas chromatography separation device; and then (ii) to operate said atmospheric pressure ionisation ion source at one or more second different settings for a second subsequent period of time whilst said one or more analytes elute from said gas chromatography separation device. 2. A mass spectrometer as claimed in claim 1 , wherein said gas chromatography separation device comprises a gas chromatography column. 3. A mass spectrometer as claimed in claim 1 , wherein said atmospheric pressure ionisation ion source comprises an Atmospheric Pressure Chemical Ionisation (“APCI”) ionisation source. 4. A mass spectrometer as claimed in claim 3 , wherein said Atmospheric Pressure Chemical Ionisation (“APCI”) ionisation source comprises a corona discharge device for ionising analyte. 5. A mass spectrometer as claimed in claim 1 , wherein said one or more solvents elute from the gas chromatography device prior to the elution of said one or more analytes. 6. A mass spectrometer as claimed in claim 1 , wherein said one or more first settings and/or said one or more second settings are selected from the group consisting of: (i) a current or a corona current supplied to said atmospheric pressure ionisation ion source; (ii) a gas flow or a cone gas flow; (iii) an auxiliary gas flow; (iv) a voltage or a corona voltage applied to said atmospheric pressure ionisation ion source; (v) a polarity or a corona polarity of a voltage applied to said atmospheric pressure ionisation ion source; (vi) a temperature of one or more components of said atmospheric pressure ionisation ion source; (vii) a voltage offset, an ion source voltage offset or a cone voltage offset; and (viii) a makeup gas flow, a reference gas flow or a modifier gas flow. 7. A mass spectrometer as claimed in claim 6 , wherein said control system is arranged and adapted to set said current or corona current at a first constant current value I1 during said first period of time and/or wherein said control system is arranged and adapted to set said current or corona current at a second constant current value I2 during said second period of time. 8. A mass spectrometer as claimed in claim 7 , wherein said control system is arranged and adapted to set said first current value I1 or set said second current value I2 at a value selected from the group consisting of: (i) 0 μA; (ii)<1 μA; (iii) 1-2 μA; (iv) 2-3 μA; (v) 3-4 μA; (vi) 4-5 μA; (vii) 5-6 μA; (viii) 6-7 μA; (ix) 7-8 μA; (x) 8-9 μA; (xi) 9-10 μA; (xii) 10-11 μA; (xiii) 11-12 μA; (xiv) 12-13 μA; (xv) 13-14 μA; (xvi) 14-15 μA; (xvii) 15-16 μA; (xviii) 16-17 μA; (xix) 17-18 μA; (xx) 18-19 μA; (xxi) 19-20 μA; (xxii) 20-21 μA; (xxiii) 21-22 μA; (xxiv) 22-23 μA; (xxv) 23-24 μA; (xxvi) 24-25 μA; (xxvii) 25-26 μA; (xxviii) 26-27 μA; (xxix) 27-28 μA; (xxx) 28-29 μA; (xxxi) 29-30 μA; (xxxii) 30-40 μA; (xxxiii) 40-50 μA; and (xxxiv) >50 μA. 9. A mass spectrometer as claimed in claim 7 , wherein I1<I2 or wherein I1>I2. 10. A mass spectrometer as claimed in claim 7 , wherein said first constant current value I1 is different to said second constant current value I2. 11. A mass spectrometer as claimed in claim 10 , wherein said first constant current value I1 is ten times as great as said second constant current value I2. 12. A mass spectrometer as claimed in claim 6 , wherein said control system is arranged and adapted to vary said current or corona current as a function of time during said first period of time and/or wherein said control system is arranged and adapted to vary said current or corona current as a function of time during said second period of time. 13. A mass spectrometer as claimed in claim 6 , wherein said control system is arranged and adapted to set said gas flow, cone gas flow, auxiliary gas flow, makeup gas flow, reference gas flow or modifier gas flow at a first constant gas flow value Q1 during said first time and/or wherein said control system is arranged and adapted to set said gas flow, cone gas flow, auxiliary gas flow, makeup gas flow, reference gas flow or modifier gas flow at a second constant gas flow value Q2 during said second time, wherein optionally said control system is arranged and adapted to set said first gas flow value Q1 and/or wherein said control system is arranged and adapted to set said second gas flow value Q2 at a value selected from the group consisting of: (i) 0 L/Hr; (ii) <10 L/Hr; (iii) 10-20 L/Hr; (iv) 20-30 L/Hr; (v) 30-40 L/Hr; (vi) 40-50 L/Hr; (vii) 50-60 L/Hr; (viii) 60-70 L/Hr; (ix) 70-80 L/Hr; (x) 80-90 L/Hr; (xi) 90-100 L/Hr; (xii) 100-150 L/Hr; (xiii) 150-200 L/Hr; (xiv) 200-250 L/Hr; (xv) 250-300 L/Hr; (xvi) 300-350 L/Hr; (xvii) 350-400 L/Hr; (xviii) 400-450 L/Hr; (xix) 450-500 L/Hr; and (xx) >500 L/Hr. 14. A mass spectrometer as claimed in claim 13 , wherein Q1<Q2 or wherein Q1>Q2. 15. A mass spectrometer as claimed in claim 6 , wherein said control system is arranged and adapted to vary said gas flow, cone gas flow, auxiliary gas flow, makeup gas flow, reference gas flow or modifier gas flow as a function of time during said first period of time and/or wherein said control system is arranged and adapted to vary said gas flow, cone gas flow, auxiliary gas flow, makeup gas flow, reference gas flow or modifier gas flow as a function of time during said second period of time. 16. A mass spectrometer as claimed in claim 1 , wherein said control system is arranged and adapted to operate said atmospheric pressure ionisation ion source at said one or more first settings for said first period of time upon detecting said one or more background substances eluting from said gas chromatography separation device and/or upon detecting one or more changes in an operating condition or operating efficiency of said ion source. 17. A mass spectrometer as claimed in claim 1 , wherein said atmospheric pressure ionisation ion source is not turned OFF during elution of the one or more solvents from said gas chromatography separation device during said solvent front. 18. A method of mass spectrometry comprising: operating an atmospheric pressure ionisation source at one or more first settings for a first period of time whilst one or more solvents elute from a gas chromatography separation device during a solvent front free of analytes which is prior to the elution of one or more analytes from said gas chromatography separation device; and then operating said atmospheric pressure ionisation source at one or more second different settings for a second subsequent period of time whilst said one or more analytes elute from said gas chromatography separation device.