Kinetics of recombination in nitrogen-doped GaP

Dapkus, P.D.; Hackett, W. H.; Lorimor, O. G.; Bachrach, R. Z.

doi:10.1063/1.1663155

Cited by 50 publications

(13 citation statements)

References 23 publications

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“…The emission spectra of single crystal ZnO films are similar to the spectra of bulk ZnO crystals [20] and are comparable in emission intensity I, FWHM, and peak position λ max of the emission line.…”

Section: Methodsmentioning

confidence: 71%

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Intensity of emission from intracenter 4f-transitions in a-Si:H, ZnO, and GaN films doped with rare-earth ions

et al. 2012

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Most studies concerned with the potential for rais ing the intensity of emission due to the intracenter 4f transition in Er, 4 I 13/2 -4 I 15/2 (λ = 1540 nm) in films of amorphous hydrogenated silicon a Si:H doped with Er [a Si:(H, Er)] have been carried out because of the prospects for use of this semiconductor in fiber optic communication systems [6], owing to the possibility of its integration into silicon technology.To elucidate the mechanism by which REI lumi nescence spectra are formed in ZnO, GaN, and a Si:H, it is necessary to analyze (i) the position of REIs in the semiconductor matrix and the interaction of REIs with defects and impurities, (ii) position of the energy levels of REIs relative to the valence and conduction bands of the semiconductors, (iii) excitation mecha nisms and kinetic models describing the luminescence related to intracenter 4f states in REIs, (iv) REI lumi nescence quenching processes, and (v) the influence exerted by the concentration of REIs and an addition ally introduced impurity (co dopant), introduced into the semiconductor, on its photoluminescence (PL) spectra.Several studies on a Si:(H, Er) have been devoted to solving a number of problems mentioned above [6][7][8].In [6,7], basic results obtained when analyzing the influence exerted by the local environment of REIs in the amorphous matrix of a Si:H were reported. These results are used in studies of crystalline semiconductor matrices, GaN:(Eu, Er) and ZnO:(Eu, Er).Abstract-It is shown that the intensity of emission from intracenter 4f transitions in amorphous a Si:H films and crystalline (GaN, ZnO) films doped with rare earth ions is governed by the local environment of doping impurity ions. In the case of a Si:H, a pseudo octahedron with the C 4V point group is present due to nanocrystallites, which provides a local environment for rare earth ions. In the case of a hexagonal crystal lattice in crystalline GaN and ZnO films, the local symmetry of rare earth ions introduced into the semicon ductor matrix by diffusion, with a pseudo octahedron with the C 4V point group, is formed by stresses due to rare earth ion-oxygen complexes with a radius exceeding that of host ions incorporated at crystal lattice sites. In contrast to GaN films, ZnO films exhibit, on being doped with Tm, Sm, and Yb, both high intensity emission in the long wavelength spectral region, characteristic of intracenter 4f transitions in rare earth ions, and a substantial increase in intensity in the short wavelength spectral region (λ = 368-370 nm). GaN films doped with rare earth ions exhibit in this spectral range only an inhomogeneously broadened emission spec trum due to the presence of an emission band characteristic of donor acceptor recombination.

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Section: Methodsmentioning

confidence: 71%

“…The following two processes involve a REI trap with excited intracenter states and an electron (hole) at a neutral donor (acceptor) [20]. An impor tant role is played by Auger quenching involving free carriers in wide gap semiconductors at high tempera tures and under laser excitation [20].…”

Section: Methodsmentioning

confidence: 99%

Intensity of emission from intracenter 4f-transitions in a-Si:H, ZnO, and GaN films doped with rare-earth ions

et al. 2012

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“…3, the PL intensity decreases with increasing the hole concentration corresponding to Mg concentration and thus it is considered that this quenching of the PL emission is caused by the nonradiative recombination centres due to Mg doping, when the hole concentration is larger than ~10 18 cm -3 . Dapkus et al [21] have reported the hole concentration dependence of the effective lifetime for Zn-doped p-type GaP:N grown by liquid-phase epitaxy, where the effective lifetime is reduced and PL quenching occurs due to the acceptor doping larger than ~10 18 cm -3 . Therefore, these results suggest that the hole concentration of p-type GaPN cladding layer surrounds the active layer should be less than ~10 18 cm -3 .…”

Section: Resultsmentioning

confidence: 98%

Electrical and luminescence properties of Mg‐doped p‐type GaPN grown by molecular beam epitaxy

Mitsuyoshi

Umeno

Furukawa

et al. 2010

Phys. Status Solidi (c)

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Zwei Seelen wohnen, ach! in meiner Brust die eine will C‐H‐Aktivierung sich nennen, die andre frönet reduktiver Lust: Frei nach Goethe beschreibt dies die Umsetzung des Heterocyclus (CyNCH2)3 (Cy=Cyclohexyl) mit [SmIII(AlMe4)3]. Wie N. W. Mitzel et al. in der Zuschrift auf zeigen, werden C‐H‐Bindungen der Methylgruppen unter Bildung eines Carbinkomplexes mit {(HC)Al3Sm}‐Einheit aktiviert, und zudem tritt eine spontane Reduktion von Samarium(III) zu Samarium(II) durch die Methylgruppen auf.

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“…The steady-state luminescence intensity as function of temperature can be described using an excitonic recombination kinetic model, similar to the model proposed for n-type GaP:N [10]. The recombination shunt channel involving the broadband IR emission via D-deep level is described by the holes shunt-path capture time, t S (see the text that follows).…”

Section: Discussionmentioning

confidence: 99%

Kinetics of the excitonic radiative recombination in WS2:Br2 and MoS2:Cl2 layered crystals

Colev

Gherman

Mirovitskii

et al. 2009

Journal of Luminescence

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Kinetics of recombination in nitrogen-doped GaP

Cited by 50 publications

References 23 publications

Intensity of emission from intracenter 4f-transitions in a-Si:H, ZnO, and GaN films doped with rare-earth ions

Intensity of emission from intracenter 4f-transitions in a-Si:H, ZnO, and GaN films doped with rare-earth ions

Electrical and luminescence properties of Mg‐doped p‐type GaPN grown by molecular beam epitaxy

Kinetics of the excitonic radiative recombination in WS2:Br2 and MoS2:Cl2 layered crystals

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