Exponential scan mode for quadrupole mass spectrometers to generate super-resolved mass spectra

The invention claimed is: 1. A mass spectrometer, comprising: a quadrupole mass filter for mass selectively transmitting ions from an entrance end to an exit end, the quadrupole mass filter including: four elongated electrodes arranged in parallel; and a power supply, coupled to the electrodes, for applying a resolving DC voltage of amplitude U and an RF voltage of amplitude V to the electrodes; a detector, positioned to receive ions transmitted to the exit end of the quadrupole mass filter, for sensing ions and responsively generating a signal representative of the abundance of sensed ions; and a Controller and Data System coupled to the detector and comprising: a Digital Signal Processor (DSP) coupled to the power supply; and machine-readable or computer-readable instructions, wherein the machine-readable or computer-readable instructions are configured to cause the DSP to cause the power supply to temporally vary U and V during a scan period such that U and V both increase exponentially with time while the ratio of U to V is maintained constant. 2. The mass spectrometer of claim 1 , wherein the detector is an arrayed detector configured to measure the spatial distribution of ions within a detection plane. 3. The mass spectrometer of claim 1 , wherein the machine-readable or computer-readable instructions are further configured to cause the DSP to cause the power supply to temporally vary U and V such that multiple ion species having a range of mass-to-charge ratios within a transmission window are transmitted to the exit end of the quadrupole mass filter at a specific timepoint. 4. The mass spectrometer of claim 3 , wherein the transmission window has a width of at least 10 Dalton (Da). 5. The mass spectrometer of claim 2 , wherein the detector is configured to acquire a time series of images, each image representing the spatial distribution of ions at a specific timepoint. 6. The mass spectrometer of claim 5 , further comprising a data processing system programmed to deconvolve data present in the images to generate a mass spectrum. 7. The mass spectrometer of claim 1 , further comprising a collision cell positioned upstream in an ion path of the quadrupole mass filter. 8. The mass spectrometer of claim 1 , further comprising a second quadrupole mass filter positioned upstream of the collision cell in the ion path.