Yellow‐green emitters based on beryllium‐chalcogenides on InP substrates

Abstract: PACS 78.20.Ci, 78.55.Et, 78.66.Hf, 81.05.Dz, 81.15.Hi, 85.60.Jb II-VI compound materials containing beryllium-chalcogenides such as BeZnTe, ZnCdSe/BeZnTe, and MgSe/BeZnTe superlattices grown on InP substrates have been investigated for yellow-green emitters employing molecular beam epitaxy. Photoluminescence peaks of ZnCdSe/BeZnTe superlattices were widely controlled from 740 to 507 nm by changing the layer thickness combination. Applying ZnCdSe/BeZnTe and MgSe/BeZnTe superlattices, visible light emitting diod… Show more

“…9 Beryllium chalcogenides have attracted much attention for the blue wavelength of region light emitting devices or UV detectors. 10,11 They provide long life-time II-VI lasers because of the strong covalent bonding of Be. BeTe and BeSe are wide-bandgap zinc blende semiconductors with lattice constants on either side of Si: they have the lattice constants of 5.6269 and 5.1477 Å, respectively, 3.6 % larger and 5.2 % smaller than Si.…”

Electronic and optical properties of beryllium chalcogenide/silicon heterostructures

“…9 Beryllium chalcogenides have attracted much attention for the blue wavelength of region light emitting devices or UV detectors. 10,11 They provide long life-time II-VI lasers because of the strong covalent bonding of Be. BeTe and BeSe are wide-bandgap zinc blende semiconductors with lattice constants on either side of Si: they have the lattice constants of 5.6269 and 5.1477 Å, respectively, 3.6 % larger and 5.2 % smaller than Si.…”

Electronic and optical properties of beryllium chalcogenide/silicon heterostructures

“…ZnSebased materials, such as ZnSSe and MgZnSSe, grown on GaAs substrates have been investigated for blue-green laser diodes (LDs); then room-temperature (RT) continuous-wave (CW) lasing was reported for ZnCdSe/MgZnSSe LDs [1,2]. However, the device lifetimes of the LD was tested to be too short for practical use; the lifetime was limited to be approximately 400 h. At the same time, we developed other II-VI compound semiconductors such as MgZnCdSe, BeZnTe, and BeZnSeTe grown on InP substrates for yellow-to-green LDs and light-emitting diodes (LEDs) [3,4]. MgZnCdSe can be used for n-cladding layers because it has wide bandgap energies from 2.1 to 3.8 eV and a high n-doping property.…”

First photopumped yellow–green lasing operation of BeZnSeTe/(MgSe/BeZnTe) doublehetero structures (DHs) grown on InP substrates

“…On the other hand, we have pointed out different II-VI compounds such as MgZnCdSe, BeZnTe, and BeZnSeTe grown on InP substrates. [9][10][11][12][13] Especially, BeZnSeTe ͑Ref. 11͒ having direct bandgap energies from 2.1 ͑590 nm͒ to 2.7 eV ͑460 nm͒ is a promising active layer material for highly reliable yellow-to-green LDs and light emitting diodes ͑LEDs͒.…”

Photopumped green lasing on BeZnSeTe double heterostructures grown on InP substrates