@article{4a0a9284a772414d8994aa6acadf8054,
title = "Exciton binding energies in CdTe/Cd1-xMnxTe multiple quantum wells",
abstract = "These results are compared with binding energies calculated with a variational approach which accounts for motion along the z-direction as well as in the x-y plane. The 1S and 2S states of both light hole, (e1, ℓ1), and heavy hole (e1h1) excitons have been observed in CdTe/Cd1-xMnxTe multiple quantum wells. Clear identification of the 2S states arises from their large diamagnetic effects and their observation has allowed the light and heavy hole exciton binding energies to be investigated with changes in depth of the electron and hole confining potentials by application of a magnetic field. In a sample with x ∼ 0.75 it is found that changes of the heavy hole exciton binding energies are small, {less-than or approximate} 1 2 meV, even for large changes, ≈40 meV, of the hole confining potential. For the light hole exciton changes of the binding energy are larger, ≅ 2meV, for smaller changes, ≅ 14meV, of the hole confining potential.",
keywords = "excitons, quantum well, magnetic field",
author = "Jackson, {S. R.} and Nicholls, {J. E.} and Hagston, {W. E.} and Gregory, {T. J.} and P. Harrison and B. Lunn and Ashenford, {D. E.}",
note = "Funding Information: The 1S and 2S states of both heavy hole (e, h, ) and light hole (e, Q, ) excitons has been observed in a CdTe/CdhInTe structure, with x = 0.075 and with well and barrier widths of 75 and BOA respectively. It is found that the binding energy of the (e, h, ) exciton is relatively less sensitive to changes of the barrier heights than is the binding energy of the (e, (1, ) cxciton. Analysis of the magnetic exchange splitting of thcsc two exciton states is consistent with a valence band discontinuity of between about 0.2 and 0.35 of the total band gap offset although calculations of the (e, h, ) binding energy when the valence band structure changes from type I to type II suggests that me discontinuity may be closer to the higher value Acknowledgements We wish to thank J.H.C. Hogg and S. Ali for x-ray diffraction analysis. This work has been supported by the Science and Engineering Research Council and the Procurement Executive, Ministry of Defence, U.K.",
year = "1992",
doi = "10.1016/0749-6036(92)90298-J",
language = "English",
volume = "12",
pages = "447--451",
journal = "Micro and Nanostructures",
issn = "2773-0131",
publisher = "Elsevier Ltd",
number = "4",
}