@article {2762, title = {FUNDAMENTAL-ASPECTS OF FT-ICR AND APPLICATIONS TO CHEMISTRY}, journal = {Hyperfine Interactions}, volume = {81}, number = {1-4}, year = {1993}, note = {ISI Document Delivery No.: MN873Times Cited: 2Cited Reference Count: 29}, pages = {171-178}, type = {Article}, abstract = {Fourier transform ion cyclotron resonance (FT-ICR) spectroscopy, a modem form of mass spectrometry whose advantages were first demonstrated in our laboratory in 1974, is characterized by ultrahigh mass resolution, wide mass range, high speed and automatic mass calibration. Together with the FT-ICR double resonance experiment, these advantages make FT-ICR a powerful technique for studying complex ion/molecule reaction pathways and for general problems in analytical mass spectrometry. In addition, the high resolution principles of FT-ICR have been widely adopted around the world for precise mass measurements of nuclides.}, keywords = {GAS-PHASE, ION-CYCLOTRON RESONANCE, ISOTOPES, PENNING-TRAP, SPECTROSCOPY, TRANSFORM MASS-SPECTROMETRY}, isbn = {0304-3843}, url = {://A1993MN87300018}, author = {Comisarow, M. B.} }