Murali, A., Sarswat, P.K. View Answer: Answer: Option B. Recombination is when (a) an electron falls into a hole (b) a positive and a negative ion bond together (c) a valence electron becomes a conduction electron (d) a crystal is formed 13. 2.11.3 Band-to-Band recombination Band-to-band recombination depends on the density of available electrons and holes. 2.3 Carrier Generation and Recombination Carrier generation is a process where electron-hole pairs are created by exciting an electron from the valence band of the semiconductor to the conduction band, thereby creating a hole in the valence band. 14. The current in a semiconductor is produced by Electron-hole recombination requires an excited semiconductor in which both electrons and holes occupy the same volume of the crystal. Electron-hole pairs are produced by (a) recombination (b) thermal energy (c) ionization (d) doping 12. Electron-hole pairs are produced by (a) recombination (b) thermal energy (c) ionization (d) doping. The Coulomb interaction of electrons and holes in a two-dimensional semiconductor is shown to affect radiative and nonradiative recombination processes strongly. In semiconductors, "electron" is a shorthand for "free electron", meaning that the electron is not bound to any atom/atoms. Both carriers eventually disappear in the process. During recombination, the electron energy is released as a photon with the energy closed to the bandgap energy of the semiconductor. The generation of electrons and holes in anthracene crystals by x rays from a 600-kV pulsed x-ray source was studied. Recombination of electrons and holes is a process by which both carriers annihilate each other: electrons occupy - through one or multiple steps - the empty state associated with a hole. Similarly, a "hole" means a covalent bond with one electron missing. Our detailed calculations based on a many-body theory give the Coulomb correlation factors for a wide range of carrier densities and temperatures. electron - hole pair recombination When the excited electron meets the hole in the valence band, it may occupy that place. The current passing through a pn diode in electrons per second equals the rate of electron-hole recombination (illus. Solution: 15. The average energy deposited per electron-hole pair created W was found to be 3×103 eV. Photon absorption Since both carrier types need to be available in the recombination process, the rate is expected to be proportional to the product of n and p.However in thermal equilibrium the recombination rate must equal the generation rate since there is no net recombination or generation. > What does combination of holes and electrons make? Carrier generation is a process where electron-hole pairs are created by exciting an electron from the valence band of the semiconductor to the conduction band, thereby creating a hole in the valence band. Minimizing electron-hole pair recombination through band-gap engineering in novel ZnO-CeO 2-rGO ternary nanocomposite for photoelectrochemical and photocatalytic applications. The number of carriers generated was independent of temperature from -25 to 25°C and depended linearly upon the x-ray intensity. Recombination is when (a) an electron falls into a hole (b) a positive and a negative ion bond together (c) a valence electron becomes a conduction electron (d) a crystal is formed 16. As a result the e-h pair disappear; this process is called recombination. This state can be produced by purely electrical means by forward-biasing a pn junction. 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