Gwangju Institute of Science and Technology r

Many interesting functional properties of materials with advanced applications often rely on the electron–phonon coupling strength. However, the coupling strength is believed to be an intrinsic material property, which limits potential applications requiring a tunable coupling strength. In a recent breakthrough, researchers from Korea have managed to engineer this coupling strength in synthetic materials, observing a remarkable 300-fold enhancement in strontium ruthenate with reduced dimensionality.

Related Keywords

Tokyo ,Japan ,Germany ,South Korea ,Gwangju ,Kwangju Gwangyoksi ,Seoul ,Soult Ukpyolsi ,Korea ,Jong Seok Lee ,Photon Science At Gwangju Institute Of ,Gwangju Institute Of Science ,Method Of Research ,University Of Tokyo ,Seoul National University In Korea ,Department Of Physics ,Technology In Korea ,Professor Jong Seok Lee ,Gwangju Institute ,Advanced Science ,Seok Lee ,Photon Science ,Seoul National University ,Infrared Beamline ,Phonon Coupling ,Dimensionality Controlled Srruo ,