Mass spectrometer with interleaved acquisition

The invention claimed is: 1. A method of mass spectrometry comprising: passing ions through a first stage and a second stage of a mass spectrometer; monitoring a first ion acquisition for a first dwell time extending from a time T 1 to a time T 1 +T dwell1 ; reconfiguring said mass spectrometer or one or more components of said mass spectrometer to monitor a second ion acquisition; and setting said first stage to transmit ions of the second ion acquisition at a time T, wherein T<T 1 +T dwell1 ; and monitoring the second ion acquisition for a second dwell time starting at a time T 2 , wherein T 2 >T 1 +T dwell1 so that there is a non-zero interscan time T 2 −T 1 +T dwell1 ; the method further comprising determining said time T based on a known or calculated ion transit time through one or more regions or components of said mass spectrometer disposed downstream of said first stage. 2. A method as claimed in claim 1 , wherein said second stage comprises an ion detector or is arranged to transmit ions to an ion detector. 3. A method as claimed in claim 2 , wherein said one or more regions or components of the mass spectrometer are disposed upstream of said second stage or said ion detector. 4. A method as claimed in claim 1 , wherein said first stage and/or said second stage are selected from the group comprising: (i) a quadrupole mass filter or analyser; (ii) an ion mobility separation or differential ion mobility separation device; (iii) a Time of Flight mass analyser or other mass analyser; (iv) an ion trap; and (v) an ion guide or ion transfer device. 5. A method as claimed in claim 1 , wherein said mass spectrometer further comprises a fragmentation or reaction device disposed between said first and second stages so that said first stage transmits parent or precursor ions and said second stage transmits fragment, daughter or product ions. 6. A method as claimed in claim 5 , wherein said fragmentation or reaction device comprises a collision or reaction cell or device. 7. A method as claimed in claim 5 , wherein said first stage comprises a first quadrupole mass filter or analyser and said second stage comprises a second quadrupole mass filter or analyser and wherein monitoring said first and second ion acquisitions comprises measuring first and second precursor-fragment or MRM transitions. 8. A method as claimed in claim 5 , further comprising clearing said fragmentation or reaction device of ions between the first and second ion acquisitions. 9. A method as claimed in claim 8 , further comprising clearing said fragmentation or reaction device is cleared using an AC or DC driving force, travelling wave or axial field. 10. A method as claimed in claim 1 , wherein the step of reconfiguring the mass spectrometer or one or more components of the mass spectrometer comprises changing: (i) the mass to charge ratio of ions transmitted through a quadrupole mass filter or analyser; (ii) a collision energy or other fragmentation or reaction parameter; (iii) the polarity of the instrument; (iv) a RF voltage applied to an ion guide; (v) a DC axial field or voltage applied to a component of the mass spectrometer; or (vi) a de-clustering or cone voltage. 11. A method as claimed in claim 1 , wherein an interscan time is less than 0.2 ms, 0.3 ms, 0.4 ms, 0.5 ms, 0.6 ms, 0.8 ms, 1 ms, 2 ms, 3 ms, 4 ms, 5 ms, 10 ms or 20 ms. 12. A method as claimed in claim 1 , wherein said ions are passed through said first stage and/or are passed through said one or more components or regions and/or are passed to said second stage as a substantially continuous, pseudo-continuous or extended stream. 13. A mass spectrometer comprising: a first stage; a second stage; and a control system arranged and adapted: (i) to monitor a first ion acquisition for a first dwell time extending from a time T 1 to a time T 1 +T dwell ; (ii) to reconfigure said mass spectrometer or one or more components of said mass spectrometer to monitor a second ion acquisition; (iii) to set said first stage to transmit ions of the second ion acquisition at a time T, wherein T<T 1 +T dwell so that there is a non-zero interscan time; (iv) to monitor a second ion acquisition for a second dwell time starting at a time T 2 , wherein T 2 >T 1 +T dwell ; and wherein the non-zero interscan time equals T 2 −T 1 +T dwell . 14. A method as claimed in claim 1 comprising: passing a beam of ions through a tandem mass spectrometer comprising a collision cell, a first quadrupole mass filter or analyser disposed upstream of said collision cell arranged to transmit parent or precursor ions, and a second quadrupole mass filter or analyser disposed downstream of said collision cell arranged to transmit fragment or product ions; monitoring a first precursor-fragment transition for said first dwell time extending from said time T 1 to said time T 1 +T dwell1 ; setting said first quadrupole mass analyser to transmit parent or precursor ions of the second transition at said time T, wherein T<T 1 +T dwell1 ; and monitoring a second precursor-fragment transition for said second dwell time starting at said time T 2 , wherein T 2 >T 1 +T dwell1 ; the method further comprising determining said time T based on a known or calculated ion transit time through said collision cell and/or through an ion guide disposed upstream of said second quadrupole mass filter or analyser. 15. A method as claimed in claim 14 , further comprising transmitting fragment or product ions from said second quadrupole mass analyser to an ion detector. 16. A method as claimed in claim 14 , wherein an interscan time is less than 0.2 ms, 0.3 ms, 0.4 ms, 0.5 ms, 0.6 ms, 0.8 ms, 1 ms, 2 ms, 3 ms, 4 ms, 5 ms, 10 ms or 20 ms. 17. A mass spectrometer as claimed in claim 13 comprising: a first quadrupole mass filter or analyser; a second quadrupole mass filter or analyser; a collision cell disposed between said first and second quadrupole mass filters or analysers; and wherein said control system is arranged and adapted: (i) to monitor a first precursor-fragment transition for said first dwell time extending from said time T 1 to said time T 1 +T dwell1 ; (ii) to set said first quadrupole mass filter or analyser to transmit parent or precursor ions of the second transition at said time T, wherein T<T 1 +T dwell1 ; and (iii) to monitor a second precursor-fragment transition for said second dwell time starting at said time T 2 , wherein T 2 >T 1 +T dwell1 ; wherein said time T is based on a known or calculated ion transit time through said collision cell and/or through an ion guide disposed upstream of said second quadrupole mass filter or analyser. 18. A method of mass spectrometry comprising: passing ions through a first stage and a second stage of a mass spectrometer; monitoring a first ion acquisition for a first dwell time extending from a time T 1 to a time T 1 +T dwell1 ; reconfiguring said mass spectrometer or one or more components of said mass spectrometer to monitor a second ion acquisition; and setting said first stage to transmit ions of the second ion acquisition at a time T, wherein T<T 1 +T dwell1 so that there is a non-zero interscan time T 2 −T 1 +T dwell1 ; and monitoring the second ion acquisition for a second dwell time starting at a time T 2 , wherein T 2 >T 1 +T dwell1 . 19. A mass spectrometer as claimed in claim 13 , wherein the time T is determined based on a known or calculated ion transit time through one or more regions or components of said mass spectrometer disposed downstream of said fir