Quadrupole mass spectrometer with quadrupole mass filter as a mass separator

The invention claimed is: 1. A method for executing a quadrupole mass spectrometer which includes a quadrupole mass filter for selectively allowing an ion having a specific mass to pass through and a detector for detecting the ion which has passed through the quadrupole mass filter and which performs a scan measurement in which a cycle of scanning a mass of ions which pass through the quadrupole mass filter across a predetermined mass range is repeated, the method comprising: applying a predetermined voltage by a quadrupole driver to each of electrodes composing the quadrupole mass filter; and in performing the scan measurement by a controller, setting a scan margin at least either above or below a specified mass range by a scan margin width, which is a difference between a scan initiation mass and a mass with which the scan measurement is actually initiated or a difference between a mass with which the scan measurement is actually terminated and a scan termination mass, and controlling the quadrupole driver in such a manner as to change the voltage applied to each of the electrodes composing the quadrupole mass filter so as to scan a mass range which is wider than the specified mass range by the scan margin, and wherein the scan margin width is changed in accordance with a scan rate (mass per unit time). 2. The method according to claim 1 , wherein the controller decreases the scan margin width as the scan rate decreases. 3. The method according to claim 1 , wherein the controller further changes the scan margin width in accordance with the scan initiation mass. 4. The method according to claim 3 , wherein the controller further changes the scan margin width in accordance with an acceleration voltage for an ion injected into the quadrupole mass filter. 5. The method according to claim 2 , wherein the controller further changes the scan margin width in accordance with a scan initiation mass. 6. The method according to claim 5 , wherein the controller further changes the scan margin width in accordance with an acceleration voltage for an ion injected into the quadrupole mass filter. 7. The method according to claim 1 , wherein the scan margin width is calculated by k×[scan rate]×[m/z value] 1/2 , where k is a constant and m/z value is the scan initiation mass. 8. The method according to claim 7 , wherein k is determined by an ion acceleration voltage for an ion injected into the quadrupole mass filter. 9. A method for executing a quadrupole mass spectrometer which includes a quadrupole mass filter for selectively allowing an ion having a specific mass to pass through and a detector for detecting the ion which has passed through the quadrupole mass filter and which performs a scan measurement in which a cycle of scanning a mass of ions which pass through the quadrupole mass filter across a predetermined mass range is repeated, the method comprising: applying a predetermined voltage by a quadrupole driver to each of electrodes composing the quadrupole mass filter; and performing the scan measurement by setting a scan margin at least either above or below a specified mass range by a scan margin width, which is a difference between a scan initiation mass and a mass with which the scan measurement is actually initiated, or a difference between a mass with which the scan measurement is actually terminated and a scan termination mass, and controlling the quadrupole driver in such a manner as to change the voltage applied to each of the electrodes composing the quadrupole mass filter so as to scan a mass range which is wider than the specified mass range by the scan margin, and wherein the scan margin width is changed with a scan rate (mass per unit time), the scan initiation mass, or an acceleration voltage for an ion injected into the quadrupole mass filter. 10. A method for executing a quadrupole mass spectrometer which includes a quadrupole mass filter for selectively allowing an ion having a specific mass to pass through and a detector for detecting the ion which has passed through the quadrupole mass filter and which performs a scan measurement in which a cycle of scanning a mass of ions which pass through the quadrupole mass filter across a predetermined mass range is repeated, the method comprising: applying a predetermined voltage by a quadrupole driver to each of electrodes composing the quadrupole mass filter; and performing the scan measurement by setting a scan margin at least either above or below a specified mass range by a scan margin width, which is a difference between a scan initiation mass and a mass with which the scan measurement is actually initiated, or a difference between a mass with which the scan measurement is actually terminated and a scan termination mass, and controlling the quadrupole driver in such a manner as to change the voltage applied to each of the electrodes composing the quadrupole mass filter so as to scan a mass range which is wider than the specified mass range by the scan margin, and wherein the scan margin width is calculated by k×[scan rate]×[m/z value] 1/2 , where k is a constant and m/z value is the scan initiation mass. 11. The method according to claim 10 , wherein k is determined by an ion acceleration voltage for an ion injected into the quadrupole mass filter.