Studying electronic properties in GaN without electrical contacts using γ-γ vs e−-γ Perturbed Angular Correlations

Barbosa, M. B.; Correia, J. G.; Lorenz, K.; Vianden, R.; Araújo, João P.

doi:10.1038/s41598-019-52098-5

Cited by 5 publications

(2 citation statements)

References 30 publications

(45 reference statements)

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“…The degree to which the e−γ and γ−γ TDPAC signals differ from each other depends on the timescale (and hence speed) of the host material to provide its recombination electrons to the TDPAC nuclear probe following internal conversion of the excited 181 Ta to ground state 181 Ta as a TDPAC probe (Further details are contained in Section 2). This is wonderfully demonstrated in the recent 181 Ta(GaN) TDPAC experiment by Barbosa et al [31], where they have performed a temperature-and "Si-and Zn-dopant" concentration-dependent study. In Figure 1 of the corresponding paper, they had shown that their e−γ signals differ from those of the corresponding γ−γ signals.…”

Section: Motivation For Applying the E−γ Tdpac Spectroscopy To The Ti...mentioning

confidence: 91%

“…Their e−γ TDPAC spectrometer was significantly upgraded later and brought to its full capacity at the Solid-State Physics ISOLDE-CERN facility in the early 1990s [42][43][44]. Recent experiments using the modern e−γ TDPAC spectrometer include a temperature-and "Si-and Zn-" dopant concentrationdependent study on 181 Ta(GaN) [31], which provides signals related to the recombination process and with the help of simulations based on DFT. On this basis, researchers ascribe this phenomenon to variable-range hopping in the low-temperature regime and thermally mobile electrons (electrons in the conduction band) in the high-temperature regime.…”

Section: Isolde-cernmentioning

confidence: 99%

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Room-Temperature 181Ta(TiO2): An e-γ TDPAC Study

et al. 2022

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In this work, we report on the hyperfine parameters of the foreign 181Ta probe in the rutile structure of the single crystal TiO2 using the e−γ and γ−γ time differential perturbed angular correlation (TDPAC) technique. We implanted 181Hf ions into a sample of single crystal rutile TiO2 in the Bonn Isotope Separator. The implanted sample was then thermally annealed at a temperature of 873 K for 315 min in a vacuum. The 181Hf radioisotopes decayed by β− emission, followed by a cascade to the ground of γ rays or conversion electrons into a stable state 181Ta. The 181Ta probe substitutes the Ti lattice site with a unique nuclear quadrupole interaction, allowing for the precise measurement of the largest electric field gradient (Vzz) and asymmetry parameter (η). The hyperfine parameters obtained from the e−γ TDPAC spectroscopy agree with those of the γ−γ TDPAC spectroscopy at room temperature, apart from a calibration factor, both from our experiments and the literature. This suggests that the electronic recombination following the internal conversion of the L shell electron takes less time (ps) than the intermediate lifetime of the metastable 181Ta state (ns).

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Section: Motivation For Applying the E−γ Tdpac Spectroscopy To The Ti...mentioning

confidence: 91%

Section: Isolde-cernmentioning

confidence: 99%

Room-Temperature 181Ta(TiO2): An e-γ TDPAC Study

et al. 2022

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Local inhomogeneous state in multiferroic SmCrO3

Oliveira

Teixeira

Moreira

et al. 2020

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Rare-earth orthochromites with distorted perovskite structure (e.g. Rcro 3 , R = Sm, Gd) have been under strong debate with respect to the origin of their ferroelectric order. of particular interest is the question of whether such orthochromites are, in fact, magnetically driven improper ferroelectrics, as many rare-earth manganites or orthoferrites. Here we show, by studying at the atomic scale the rareearth Smcro 3 system that a distortion of the Sm local environment emerges within the paramagnetic phase, near room temperature. Our Electric Field Gradient measurements combined with first-principles calculations show that the emergent phase cannot be simply ascribed to the Pna2 1 structure as reported for Gdcro 3 or Smcro 3. instead a local inhomogeneous state, where regular non-polar and polar distorted environments coexist, develops at low temperatures.

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Preparation of GaN/Porous silicon heterojunction photodetector by laser deposition technique

Fakhri,

Jabbar,

AbdulRazzaq

et al. 2023

Sci Rep

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In this work, gallium nitride (GaN) thin film was deposited on porous silicon (PSi) substrate via a pulsed laser deposition route with a 355 nm laser wavelength, 900 mJ of laser energy, and various substrate temperatures raging from 200 to 400 °C. The structural and optical properties of GaN films as a function of substrate temperature are investigate. XRD studies reveal that the GaN films deposited on porous silicon are nanocrystalline with a hexagonal wurtzite structure along (002) plane. The photoluminescence emission peaks of the GaN/PSi prepared at 300 °C substrate temperature are located at 368 nm and 728 nm corresponding to energy gap of 3.36 eV and 1.7 eV, respectively. The GaN/PSi heterojunction photodetector prepared at 300 °C exhibits the maximum performance, with a responsivity of 29.03 AW−1, detectivity of 8.6 × 1012 Jones, and an external quantum efficiency of 97.2% at 370 nm. Similarly, at 575 nm, the responsivity is 19.86 AW−1, detectivity is 8.9 × 1012 Jones, and the external quantum efficiency is 50.89%. Furthermore, the photodetector prepared at a temperature of 300 °C demonstrates a switching characteristic where the rise time and fall time are measured to be 363 and 711 μs, respectively.

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Studying electronic properties in GaN without electrical contacts using γ-γ vs e−-γ Perturbed Angular Correlations

Cited by 5 publications

References 30 publications

Room-Temperature 181Ta(TiO2): An e-γ TDPAC Study

Room-Temperature 181Ta(TiO2): An e-γ TDPAC Study

Local inhomogeneous state in multiferroic SmCrO3

Preparation of GaN/Porous silicon heterojunction photodetector by laser deposition technique

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