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Thefield of spectroscopy is expanding rapidly and becoming more accessible to theprofessional scientific community, thus contributing to improved tools andtechnologies to support discoveries. As a part of this process, researchers atinstitutions such as the University of California, Los Angeles (UCLA) havedeveloped processes which improve the efficiency and accuracy of spectroscopyby improving upon the methods that have been used for decades. Process spectroscopyhas emerged as one of the finesttechniques for analyzing finished products due to its numerous valuable aspects.It has revolutionized the ways that scientists analyze and observe theproperties of matter, atoms and molecules. This technique relies on energyindependent and sensitive spectroscopy techniques to qualitatively study theelectronic and magnetic properties of isolated objects. These techniques areused in a variety of research fields including superconductivity, astronomy andmedical research.
Inthe field of nuclear medicine, processspectroscopy has contributedsignificantly by enabling mass spectroscopy experiments. Mass spectroscopy is aversatile technique that is used to determine the properties of atoms andmolecules using gamma rays, x-rays, radio waves, or infrared spectroscopy.Nuclear medicine specialists use the technology to examine minute atomic units.With the ability to measure molecular masses with just two parameters,researchers have made important progress in the area of human biology.
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