18156502. Ion Beam Focusing simplified abstract (California Institute of Technology)
Contents
Ion Beam Focusing
Organization Name
California Institute of Technology
Inventor(s)
Dmitry Grinfeld of Bremen (DE)
Eric Wapelhorst of Bremen (DE)
Alexander Makarov of Bremen (DE)
Michael Roukes of Pasadena CA (US)
Ion Beam Focusing - A simplified explanation of the abstract
This abstract first appeared for US patent application 18156502 titled 'Ion Beam Focusing
The abstract describes an ion focusing device with an ion collection element and a multipole ion guide.
- The ion collection element has curved electrodes and an aperture, while the multipole ion guide has elongate electrodes.
- The curved electrodes of the ion collection element receive RF signals with the same phase as the elongate electrodes of the multipole ion guide.
- Some electrodes of the ion collection element receive RF signals of a different phase.
- The device is designed to focus ions efficiently for various applications in analytical chemistry and mass spectrometry.
Potential Applications:
- Mass spectrometry
- Ion mobility spectrometry
- Ion trapping experiments
- Analytical chemistry research
Problems Solved:
- Efficient ion focusing
- Improved ion separation
- Enhanced sensitivity in mass spectrometry
Benefits:
- Higher resolution in mass spectrometry
- Increased accuracy in ion analysis
- Improved detection limits
Commercial Applications:
- Laboratory equipment manufacturing
- Research institutions
- Pharmaceutical industry for drug development
Questions about Ion Focusing Device: 1. How does the ion collection element contribute to ion focusing?
- The curved electrodes of the ion collection element help guide ions towards the aperture for further analysis.
2. What advantages does using RF signals with different phases provide in ion focusing?
- Using RF signals with different phases allows for precise control over ion trajectories, enhancing separation and detection capabilities.
Original Abstract Submitted
An ion focusing device comprising an ion collection element comprising a plurality of N curved electrodes extending around an axis of the ion collection element and an aperture on an axis of the ion collection element. A multipole ion guide adjacent the ion collection element and having a plurality of N elongate electrodes extending parallel to and around an axis of the multipole ion guide, wherein the axis of the multipole ion guide coincides with the axis of the ion collection element, wherein each of the N curved electrodes of the ion collection element are configured to receive a radio frequency, RF, signal having the same phase as an RF signal configured to be applied to at least one elongate electrode of the plurality of elongate electrodes of the multipole ion guide, and further wherein at least two of the N electrodes of the ion collection element are configured to receive RF signals of a different phase.