Library search tolerant to isotopes

What is claimed is: 1. A system for acquiring an unknown product ion spectrum and marking isotopic product ion peaks from the unknown product ion spectrum for removal before comparing the unknown product ion spectrum with a library product ion spectrum, comprising: an ion source that ionizes one or more compounds of a sample, producing an ion beam of precursor ions; a tandem mass spectrometer that receives the ion beam from the ion source, selects one or more precursor ions from the ion beam using a precursor ion mass selection window, fragments precursor ions within the precursor ion mass selection window, and mass analyzes the resulting product ions, producing an unknown product ion mass spectrum for the precursor ion mass selection window; and a processor in communication with the tandem mass spectrometer that receives the unknown product ion mass spectrum from the tandem mass spectrometer, retrieves from a memory a library product ion mass spectrum for a known compound, for each peak of the unknown product ion mass spectrum, determines if a following peak of the each peak is a non-halogen isotopic peak and if the following peak is a non-halogen isotopic peak, determines if the library product ion mass spectrum includes a peak at the same m/z value of the following peak within a threshold tolerance range, and if the library product ion mass spectrum does not include a peak at the same m/z value of the following peak within the threshold tolerance range, marks the following peak for removal from unknown product ion mass spectrum. 2. The system of claim 1 , wherein if the library product ion mass spectrum does include a peak at the same m/z value of the following peak within the threshold tolerance range, the processor does not mark the following peak for removal from unknown product ion mass spectrum. 3. The system of claim 1 , wherein the processor further removes all peaks marked for removal from the unknown product ion mass spectrum before comparing the unknown product ion mass spectrum with the library product ion mass spectrum and calculating a similarity score for the comparison. 4. The system of claim 1 , wherein the unknown product ion mass spectrum and the library product ion mass spectrum include centroid m/z values. 5. The system of claim 1 , wherein precursor ion mass selection window has a width that is greater than or equal to 2 m/z. 6. The system of claim 1 , wherein the processor further determines if the precursor ion mass selection window has a width that is greater than or equal to 2 m/z and only if the precursor ion mass selection window has a width that is greater than or equal to 2 m/z does the processor determine if the library product ion mass spectrum includes a peak at the same m/z value of the following peak within a threshold tolerance range. 7. The system of claim 6 , wherein if the processor determines that the precursor ion mass selection window does not have a width that is greater than or equal to 2 m/z and the following peak is a non-halogen isotopic peak, the processor marks the following peak for removal from unknown product ion mass spectrum. 8. The system of claim 1 , wherein the processor further after retrieving the library product ion mass spectrum for the known compound from the memory, further retrieves a formula for the known compound from the memory, determines if the formula includes a halogen atom, if the formula includes a halogen atom, determines if a following peak of the each peak is a halogen isotopic peak, and if the following peak is a halogen isotopic peak, determines if the library product ion mass spectrum includes a peak at the same m/z value of the following peak within a threshold tolerance range, and if the library product ion mass spectrum does not include a peak at the same m/z value of the following peak within the threshold tolerance range, marks the following peak for removal from unknown product ion mass spectrum. 9. The system of claim 8 , wherein if the library product ion mass spectrum does include a peak at the same m/z value of the following peak, the processor does not mark the following peak for removal from unknown product ion mass spectrum. 10. The system of claim 8 , wherein the processor further removes all peaks marked for removal from the unknown product ion mass spectrum before comparing the unknown product ion mass spectrum with the library product ion mass spectrum and calculating a similarity score for the comparison. 11. The system of claim 1 , further comprising a separation device located before the ion source that separates the one or more compounds over time before presenting the one or more compounds to the ion source, wherein the processor further, before determining for each peak of the unknown product ion spectrum if a following peak of the each peak is a non-halogen isotopic peak, receives from the tandem mass spectrometer a plurality of product ion spectra produced over time, including the unknown product ion spectrum, calculates an extracted ion chromatogram (XIC) for each peak in the unknown product ion spectrum from the plurality of product ion spectra, groups peaks of the unknown product ion spectrum into groups that have an XIC centroid retention time within a retention time threshold range and an XIC peak shape within a peak shape threshold range, and keeps peaks of one group in the unknown product ion spectrum and removes from the unknown product ion spectrum all peaks from other groups. 12. A method for acquiring an unknown product ion spectrum and marking isotopic product ion peaks from the unknown product ion spectrum for removal before comparing the unknown product ion spectrum with a library product ion spectrum, comprising: ionizing one or more compounds of a sample using an ion source, producing an ion beam of precursor ions; receiving the ion beam from the ion source, selecting one or more precursor ions from the ion beam using a precursor ion mass selection window, fragmenting precursor ions within the precursor ion mass selection window, and mass analyzing the resulting product ions using a tandem mass spectrometer, producing an unknown product ion mass spectrum for the precursor ion mass selection window; receiving the unknown product ion mass spectrum from the tandem mass spectrometer using a processor; retrieving from a memory a library product ion mass spectrum for a known compound using the processor; and determining, for each peak of the unknown product ion mass spectrum using the processor, if a following peak of the each peak is a non-halogen isotopic peak and, if the following peak is a non-halogen isotopic peak, determining if the library product ion mass spectrum includes a peak at the same m/z value of the following peak within a threshold tolerance range and, if the library product ion mass spectrum does not include a peak at the same m/z value of the following peak within the threshold tolerance range, removing the following peak from unknown product ion mass spectrum. 13. A computer program product, comprising a non-transitory and tangible computer-readable storage medium whose contents include a program with instructions being executed on a processor so as to perform a method for acquiring an unknown product ion spectrum and marking isotopic product ion peaks from the unknown product ion spectrum for removal before comparing the unknown product ion spectrum with a library product ion spectrum, the method comprising: providing a system, wherein the system comprises one or more distinct software modules, and wherein the distinct software modules comprise a measurement module and an analysis module;