Growth and excitonic properties of single fractional monolayer CdSe/ZnSe structures

Ivanov, S. V.; Торопов, А. А.; Shubina, T. V.; Sorokin, S. V.; Lebedev, A. A.; Sedova, I. V.; Kop’ev, P. S.; Pozina, Galia; Bergman, J. P.; Ḿonemar, B.

doi:10.1063/1.367130

Cited by 109 publications

(43 citation statements)

References 21 publications

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“…Figure 2 presents the low-temperature PL and PLE spectra of the FM structure and of the reference QW structure. The CdSe FM PL band is much broader ( 80 meV) and inhomogeneous, and most probably involves two peaks as have been reported in [6]. Contrary to the spectra of the QW structure, the PLE spectra of the FM structure depend on the registration energy marked by arrows in Fig.…”

Section: Resultsmentioning

confidence: 58%

“…Laser structures with CdSe FM active region consist of 20 nm ZnSe buffer layer, a 0.5 m thick ZnMgSSe bottom cladding layer, a 28-period (3 nm ZnS0.14Se0.86/5 nm ZnSe) SL waveguide surrounding a 10 nm wide ZnSe QW centered with a 2.8 ML CdSe FM, and, finally, a 0.1 m ZnMgSSe top cladding layer protected by a 5 nm ZnSe cap. Both conventional MBE and migration-enchanced epitaxy (MEE) techniques [6,7] were used for the CdSe FM growth. The reference structures with the similar design contain the conventional 7-10 nm (Zn,Cd)Se QW with the same as in the SL well Cd content varied from 0.27 to 0 (pure ZnSe).…”

Section: Methodsmentioning

confidence: 99%

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Optically Pumped Low Threshold ZnSe Based Lasers with 2.8 ML CdSe Active Region

et al. 1998

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Room-temperature optically pumped (Zn,Mg)(S,Se)/(Zn,Cd)Se laser structures have been grown by molecular beam epitaxy. Using of alternatively-strained short-period superlattice waveguide results in low threshold power density values over the whole blue-green (470-520 nm) wavelength range. Incorporation of CdSe fractional monolayer active region provides more than fourfold further decrease in threshold with respect to quantum well laser structure. Optical and structural properties of laser structure with 2.8 monolayer CdSe are discussed in detail.

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Section: Resultsmentioning

confidence: 58%

Section: Methodsmentioning

confidence: 99%

Optically Pumped Low Threshold ZnSe Based Lasers with 2.8 ML CdSe Active Region

et al. 1998

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“…By varying the molecular beam epitaxil (MBE) growth conditions and thickness of thin CdSe layer on a ZnSe surface, three different regimes have been reported: (i) Stranski-Krastanov (SK) island growth mode (above tcr) [4][5][6], including thermal activation regime [7], (ii) pseudomorphic growth of thin CdSe or ZnCdSe quantum-well-like (QW-like) layers (below t^,.) [8][9][10], and (iii) coexistence of extended islands and the alloy-like phase (w < 1 ML) [11][12][13]. The SK growth mode was found to produce the dot-like CdSe-based islands with lateral sizes far beyond 10 nm, which cannot provide sufficient 3D confinement.…”

Section: Introductionmentioning

confidence: 99%

“…In contrast to the MBE growth mode, FM structures grown in the ΜΕΕ mode demonstrate a more than threefold reduced CdSe growth rate. The details of the CdSe FM growth by MBE and ΜΕΕ have been reported elsewhere [11]. The PL measurements were performed at low (1.8 K) temperature using the 351 nm line from a cw Ar+ laser.…”

Section: Methodsmentioning

confidence: 99%

“…Zhu et al [8] have interpreted this fact for sub-monolayer w region by the formation of uniform ZnCdSe alloy layer at the CdSe/ZnSe interface. The recent investigations have revealed the complicated structure of fractional monolayers (FMs) involving both the alloy-like homogeneous layer, which can probably be formed by small, with respect to rB, islands, and extended 2D ones [11][12][13].…”

Section: Introductionmentioning

confidence: 99%

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CdSe Layers of Below Critical Thickness in ZnSe Matrix: Intrinsic Morphology and Defect Formation

et al. 1998

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Three main stages of the intrinsic morphology transformation of MBE grown CdSe fractional monolayers in ZnSe with increase in their nominal thickness w in the 0.1-3.0 monolayer range were found using both structural and optical characterization techniques. Emergence of the extended (15-30 nm) CdSe-enriched quantum-dot-like pseudomorphic islands at w > 0.7 monolayer with the density increasing up to 2.5 x 10 10 cm-2 at w = 2.8 monolayer is clearly displayed in the optical properties of CdSe fractional monolayer nanostructures. The below critical thickness CdSe fractional monolayers having extremely high quantum efficiency can be very perspective as an active region of ZnSe-based blue-green lasers.

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