Raman | Raman spectroscopy | Susheela Raman | C. V. Raman | scattering | Brillouin scattering | Small-angle X-ray scattering | Small-angle scattering | Sarangapani Raman | Quantum inverse scattering method | Mie scattering | X-ray scattering techniques | Scattering | Rayleigh scattering | Raman Research Institute | Raman Mehrzad | Raman Bedi | Multiangle light scattering | Light scattering | Dynamic light scattering | C. V. Raman Pillai | C. R. Pattabhi Raman | B. Raman | A Scattering of Seeds |
In this way, X-ray diffraction and fluorescence; optical absorption and photoluminescence; Mössbauer, Raman and Brillouin scattering; positron annihilation and other signals can be measured from materials under high pressure.
In 1928, G.S. Landsberg and L.I. Mandelstam discovered a phenomenon of combinatorial scattering of light (this phenomenon became known as Raman effect independently discovered by C. V. Raman and K. S. Krishnan in liquids).