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Wilfred Jevons has written: 'Report on band-spectra of diatomic molecules' -- subject(s): Molecules, Spectrum analysis
Charles Alexander Bradley has written: 'The Smekal-Raman spectra and vibrations of some pentatomic molecules' -- subject(s): Molecules, Spectrum analysis
It depends what you are looking for. There are online databases of Raman spectra for minerals, for example, e.g. https://www.fis.unipr.it/phevix/ramandb.php For characteristic functional groups/molecules and their peaks, it is better to consult a textbook of Raman Spectra, within which you can find tables of peak assignments - take a visit to the library!
Milton Orchin has written: 'The vocabulary and concepts of organic chemistry' -- subject(s): OverDrive, Chemistry, Nonfiction, Science 'Supplement for Symmetry, orbitals, and spectra'
Robin M. Hochstrasser has written: 'Molecular aspects of symmetry' 'Behavior of electrons in atoms' -- subject(s): Electrons, Atoms, Atomic spectra
Two common sources of continuous spectra used in emission spectroscopy are the electrical discharge lamps and the incandescent lamps. Electrical discharge lamps, such as the mercury vapor lamps, produce continuous spectra due to the excitation of atoms or molecules in the gas discharge. Incandescent lamps, on the other hand, produce continuous spectra because of the thermal emission from the hot filament.
The Sun spectra is considered continuous.
Noboru Mataga has written: 'Molecular interactions and electronic spectra' -- subject(s): Molecular spectroscopy, Molecules, Quantum chemistry
It is used to measure and study properties of light. It is used in physical and analytical chemistry to study the unique spectra of atoms and molecules.
There are three main types of infrared spectra: absorption spectra, emission spectra, and reflection spectra. Absorption spectra are produced when a material absorbs infrared energy, emission spectra are produced when a material emits infrared radiation, and reflection spectra result from the reflection of infrared radiation off a material.
There is no code for spectra
One cannot tell from this graph, but because chlorophyll adoes absorb red light, we can predict that it would be effective in driving photosynthesis.