Your search keyword '"Duboz JY"' showing total 19 results

1. UV Metal Semiconductor Metal Detectors. A Robust Choice for (Al,Ga)N Based Detectors

Author

REVERCHON JL, MOSCA, Mauro, GRANDJEAN N, OMNES F, SEMOND F, DUBOZ JY, HIRSCH L., REVERCHON JL, MOSCA M, GRANDJEAN N, OMNES F, SEMOND F, DUBOZ JY, and HIRSCH L

Subjects

stress management in (AI,Ga)N, metal-semiconductor-metal detector, IBICC, UV solar blind detector

Abstract

UV detection is interesting for combustion optimization, air contamination control, fire and solar blind rocket launching detection. Most of these applications require that UV detectors have a huge dynamic response between UV and the visible, and a very low dark current in the range of the UV flux measured. (Al,Ga)N alloys present a large direct bandgap in this range and therefore can be used as an active region in such detectors. To take advantage of the large Schottky barrier, the good alloy quality, and to avoid any doping problems, we have developed MSM photodetectors. High quality material has been grown with MOCVD and MBE on sapphire substrates. Stress management is employed for aluminum contents up to 65% to reduce crack density. This is correlated with non-ideal features like dark current, sub-bandgap response and non-linearity between photocurrent and optical flux. The spectral selectivity between UV and visible reaches five orders of magnitude. A geometry of inter-digitized fingers is optimized in regards to the peak response. The Schottky barrier and a dielectric passivation result in dark currents lower than 1 fA up to 30 V for a 100 x 100 mum(2) pixel. Consequently, detectivity is mainly limited by shot noise and corresponds to a noise of 500 photons per second and per pixel.

Published

2004

2. Hot-electron transport in epitaxialCoSi2films

Author

Badoz Pa and Duboz Jy

Subjects

chemistry.chemical_classification, Materials science, Condensed matter physics, chemistry, Quantum yield, Electron interaction, Schottky diode, Epitaxy, Inorganic compound, Hot electron

Published

1991

3. Multilayer (Al,Ga)N Structures for Solar-Blind Detection

Author

Mauro Mosca, Jean-Luc Reverchon, Jean-Yves Duboz, Nicolas Grandjean, MOSCA M, REVERCHON JL, GRANDJEAN N, and DUBOZ JY

Subjects

Materials science, business.industry, Photodetector, Heterojunction, Atomic and Molecular Physics, and Optics, Active layer, law.invention, law, Back-illuminated sensor, Sapphire, Optoelectronics, Electrical and Electronic Engineering, business, Leakage (electronics), Light-emitting diode, Molecular beam epitaxy

Abstract

We report on solar-blind metal-semiconductor-metal (MSM) detectors fabricated on stacks of (Al,Ga)N layers with different Al mole fraction. These structures were grown by molecular beam epitaxy on sapphire substrates to allow backside illumination and a low-temperature GaN buffer layer. They consist of a 0.3-0.4-/spl mu/m active layer grown on a thick (Al,Ga)N window layer (/spl ap/1 /spl mu/m) that is transparent at the wavelength of interest. Different Al contents were used in the window layer. We observed that, in general, samples with a high Al content were cracked, which is explained in terms of mechanical strain. MSM photodetectors fabricated on these samples showed large leakage currents that were correlated with the crack density. In order to reduce the strain and eliminate the cracks, we inserted an AlN layer between the buffer and window layer. A crack-free sample was obtained and the solar-blind photodetector fabricated on this structure showed record performance.

Published

2004

4. Effects of the Buffer Layers on the Performances of (Al,Ga)N Ultraviolet Photodetectors

Author

Mauro Mosca, Jean-Yves Duboz, Franck Omnès, Jean-Luc Reverchon, MOSCA M, REVERCHON JL, OMNES F, and DUBOZ JY

Subjects

Materials science, Fabrication, business.industry, Wide-bandgap semiconductor, Photodetectors, General Physics and Astronomy, Photodetector, ultraviolet photodetectors, Chemical vapor deposition, Gallium nitride, Epitaxy, medicine.disease_cause, Settore ING-INF/01 - Elettronica, Buffer (optical fiber), medicine, Optoelectronics, business, Layer (electronics), Ultraviolet

Abstract

The fabrication of (Al,Ga)N-based metal–semiconductor–metal (MSM) photovoltaic detectors requires the growth of high-quality (Al,Ga)N films. Inserting a low-temperature deposited buffer layer enables the growth of an epitaxial layer with a reduced density of defects. Two structures using GaN and AlN buffer layers have been deposited by low-pressure metalorganic chemical vapor deposition and used to fabricate MSM interdigitated detectors. The devices have been characterized to investigate the effects of the buffer layers on the detector performances.

Published

2004

5. High Performance Solar Blind Detectors based on AlGaN grown by MBE and MOCVD

Author

Jean-Luc Reverchon, Jean-Yves Duboz, Franck Omnès, Nicolas Grandjean, Mauro Mosca, HOCK MIN NG, MICHAEL WRABACK, KAZUMASA HIRAMATSU, NICOLAS GRANDJEAN, DUBOZ JY, REVERCHON JL, MOSCA M, GRANDJEAN N, and OMNES F

Subjects

Materials science, business.industry, Alloy, Detector, Phase (waves), Schottky diode, engineering.material, Epitaxy, Settore ING-INF/01 - Elettronica, Gan, Condensed Matter::Materials Science, Optics, Solar-blind detectors, MBE, MOCVD, AlGaN, engineering, Optoelectronics, Metalorganic vapour phase epitaxy, business, Noise-equivalent power, Molecular beam epitaxy

Abstract

Solar blind detectors based on AlGaN grown by Molecular Beam Epitaxy and Metal Organic Vapor Phase Epitaxy have been fabricated and characterized. Metal Semiconductor Metal (MSM) detectors and vertical Schottky detectors have been realized, with a design that allows back side illumination. The growth was optimized in order to improve the layer quality, avoid crack formation, and provide the best detector performance. The technological process was also optimized in order to reduce the dark currents and improve the spectral rejection ratio, which is a key factor for solar blind detection. As a result, a rejection ratio of 5 decades between the UV (below 300 nm) and 400 nm, and a steep cut off limited by alloy fluctuations have been obtained. A noise equivalent power below 10 fW is obtained in MSM detectors.

Published

2003

6. Microcavity Light Emitting Diodes Based on GaN membranes Grown by Molecular Beam Epitaxy on Silicon

Author

Lydie Dua, Tom Cassidy, Fabrice Semond, Daniel Poitras, Jean-Luc Reverchon, Benjamin Damilano, Pierre Legagneux, R. Dudek, Nicolas Grandjean, Mauro Mosca, Jean Massies, Nadia Brière de l’Isle, Jean-Yves Duboz, DUBOZ, JY, BRIERE DE LISLE, N, DUA, L, LEGAGNEUX, P, MOSCA, M, REVERCHON, JL, DAMILANO, B, GRANDJEAN, N, SEMOND, F, MASSIES, J, DUDEK, R, POITRAS, D, and CASSIDY, T

Subjects

Materials science, Physics and Astronomy (miscellaneous), Physics::Instrumentation and Detectors, General Physics and Astronomy, Physics::Optics, Gallium nitride, Substrate (electronics), Light emitting diode, FILMS, Settore ING-INF/01 - Elettronica, law.invention, chemistry.chemical_compound, Condensed Matter::Materials Science, Optics, Etching (microfabrication), law, Dielectric mirror, Quantum well, business.industry, General Engineering, Membrane, Distributed Bragg reflector, light emitting diodes, Computer Science::Other, chemistry, Optoelectronics, WAVE, LASER, business, Microcavity, Molecular beam epitaxy, Light-emitting diode, SAPPHIRE

Abstract

Resonant-cavity InGaN/GaN quantum well light emitting diodes have been fabricated. Nitride layers were grown by molecular beam epitaxy on Si (111). We fabricated the structures using a combination of Si substrate etching, GaN etching and dielectric (Ta2O5/SiO2) mirror deposition. The electroluminescence spectra show that the emission within the distributed Bragg reflector stop band is enhanced in the membrane microcavity. The cavity modes are broadened by some cavity length non-uniformity that is introduced when the GaN is back etched to adjust the cavity length. This process does not need any transfer on an intermediate host substrate and is fully compatible with large area semiconductor processing.

Published

2003

7. Investigation of AlGaN UV emitting tunnel junction LED devices by off-axis electron holography.

Author

Cooper D, Arcara VF, Damilano B, and Duboz JY

Abstract

Here we use off-axis electron holography combined with advanced transmission electron microscopy techniques to understand the opto-electronic properties of AlGaN tunnel junction (TJ)-light-emitting diode (LED) devices for ultraviolet emission. Four identical AlGaN LED devices emitting at 290 nm have been grown by metal-organic chemical vapour deposition. Then Ge doped n-type regions with and without InGaN or GaN interlayers (IL) have been grown by molecular beam epitaxy onto the top Mg doped p-type layer to form a TJ and hence a high quality ohmic metal contact. Off-axis electron holography has then been used to demonstrate a reduction in the width of the TJ from 9.5 to 4.1 nm when an InGaN IL is used. As such we demonstrate that off-axis electron holography can be used to reproducibly measure nm-scale changes in electrostatic potential in highly defected and challenging materials such as AlGaN and that systematic studies of devices can be performed. The LED devices are then characterized using standard opto-electric techniques and the improvements in the performance of the LEDs are correlated with the electron holography results., (Creative Commons Attribution license.)

Published

2024

8. Influence of surface roughness on the lasing characteristics of optically pumped thin-film GaN microdisks.

Author

Zi H, Fai Cheung Y, Damilano B, Frayssinet E, Alloing B, Duboz JY, Boucaud P, Semond F, and Choi HW

Abstract

Optically pumped whispering-gallery mode (WGM) lasing is observed from a thin-film GaN microdisk processed from GaN-on-Si InGaN/GaN multi-quantum well wafers by selective wet-etch removal of the substrate. Compared with thin-film microdisks processed from GaN-on-sapphire wafers through laser lift-off of the sapphire substrate, the exposed surface is significantly smoother as laser-induced damage is avoided, with a root-mean-square roughness of 1.3 nm compared with 5.8 nm of the latter wafer. The ∼8- μ m diameter microdisks, fabricated by pattern transfer from a silica microsphere and dry etching, benefit from the surface smoothness to offer superior optical confinement within the cavity. WGM lasing thresholds of ∼2.9 mJ/cm 2 and ∼3.5 mJ/cm 2 with quality (Q)-factors of ∼3100 and ∼1700 are observed at the peak lasing wavelengths of ∼453 nm and ∼532 nm, respectively, which are significantly better than thin-film microdisks processed from GaN-on-sapphire wafers despite lower internal quantum efficiency, highlighting the importance of surface smoothness in such optical cavities.

Published

2022

9. Whispering-gallery mode InGaN microdisks on GaN substrates.

Author

Zi H, Fu WY, Tabataba-Vakili F, Kim-Chauveau H, Frayssinet E, De Mierry P, Damilano B, Duboz JY, Boucaud P, Semond F, and Choi HW

Abstract

Microdisks fabricated with III-nitride materials grown on GaN substrates are demonstrated, taking advantage of the high material quality of homoepitaxial films and advanced micro-fabrication processes. The epitaxial structure consists of InGaN/GaN multi-quantum wells (MQWs) sandwiched between AlGaN/GaN and InAlN/GaN superlattices as cladding layers for optical confinement. Due to lattice-matched growth with low dislocations, an internal quantum efficiency of ∼40% is attained, while the sidewalls of the etched 8 µm-diameter microdisks patterned by microsphere lithography are optically smooth to promote the formation of whispering-gallery modes (WGMs) within the circular optical cavities. Optically pumped lasing with low threshold of ∼5.2 mJ/cm 2 and quality (Q) factor of ∼3000 at the dominant lasing wavelength of 436.8 nm has been observed. The microdisks also support electroluminescent operation, demonstrating WGMs consistent with the photoluminescence spectra and with finite-difference time-domain (FDTD) simulations.

Published

2021

10. Multi-microscopy nanoscale characterization of the doping profile in a hybrid Mg/Ge-doped tunnel junction.

Author

Di Russo E, Mavel A, Fan Arcara V, Damilano B, Dimkou I, Vézian S, Grenier A, Veillerot M, Rochat N, Feuillet G, Bonef B, Rigutti L, Duboz JY, Monroy E, and Cooper D

Abstract

A multi-microscopy investigation of a GaN tunnel junction (TJ) grown on an InGaN-based light emitting diode (LED) has been performed. The TJ consists of a heavily Ge-doped n-type GaN layer grown by ammonia-based molecular-beam epitaxy on a heavily Mg-doped p-type GaN thin layer, grown by metalorganic vapor phase epitaxy. A correlation of atom probe tomography, electron holography and secondary ion mass spectrometry has been performed in order to investigate the nm-scale distribution of both Mg and Ge at the TJ. Experimental results reveal that Mg segregates at the TJ interface, and diffuses into the Ge-doped layer. As a result, the dopant concentration and distribution differ significantly from the nominal values. Despite this, electron holography reveals a TJ depletion width of ∼7 nm, in agreement with band diagram simulations using the experimentally determined dopant distribution.

Published

2020

11. Monolithic integration of ultraviolet microdisk lasers into photonic circuits in a III-nitride-on-silicon platform.

Author

Tabataba-Vakili F, Alloing B, Damilano B, Souissi H, Brimont C, Doyennette L, Guillet T, Checoury X, El Kurdi M, Chenot S, Frayssinet E, Duboz JY, Semond F, Gayral B, and Boucaud P

Abstract

Ultraviolet microdisk lasers are integrated monolithically into photonic circuits using a III-nitride-on-silicon platform with gallium nitride (GaN) as the main waveguide layer. The photonic circuits consist of a microdisk and a pulley waveguide, terminated by out-coupling gratings. In this Letter, we measure quality factors up to 3500 under continuous-wave excitation. Lasing is observed from 374 to 399 nm under pulsed excitation, achieving low-threshold energies of 0.14 m J / c m 2 per pulse (threshold peak powers of 35 k W / c m 2 ). A large peak-to-background dynamic of around 200 is observed at the out-coupling grating for small gaps of 50 nm between the disk and the waveguide. These devices operate at the limit of what can be achieved with GaN in terms of operation wavelength.

Published

2020

12. Demonstration of critical coupling in an active III-nitride microdisk photonic circuit on silicon.

Author

Tabataba-Vakili F, Doyennette L, Brimont C, Guillet T, Rennesson S, Damilano B, Frayssinet E, Duboz JY, Checoury X, Sauvage S, El Kurdi M, Semond F, Gayral B, and Boucaud P

Abstract

On-chip microlaser sources in the blue constitute an important building block for complex integrated photonic circuits on silicon. We have developed photonic circuits operating in the blue spectral range based on microdisks and bus waveguides in III-nitride on silicon. We report on the interplay between microdisk-waveguide coupling and its optical properties. We observe critical coupling and phase matching, i.e. the most efficient energy transfer scheme, for very short gap sizes and thin waveguides (g = 45 nm and w = 170 nm) in the spontaneous emission regime. Whispering gallery mode lasing is demonstrated for a wide range of parameters with a strong dependence of the threshold on the loaded quality factor. We show the dependence and high sensitivity of the output signal on the coupling. Lastly, we observe the impact of processing on the tuning of mode resonances due to the very short coupling distances. Such small footprint on-chip integrated microlasers providing maximum energy transfer into a photonic circuit have important potential applications for visible-light communication and lab-on-chip bio-sensors.

Published

2019

13. III-nitride on silicon electrically injected microrings for nanophotonic circuits.

Author

Tabataba-Vakili F, Rennesson S, Damilano B, Frayssinet E, Duboz JY, Semond F, Roland I, Paulillo B, Colombelli R, Kurdi ME, Checoury X, Sauvage S, Doyennette L, Brimont C, Guillet T, Gayral B, and Boucaud P

Abstract

Nanophotonic circuits using group III-nitrides on silicon are still lacking one key component: efficient electrical injection. In this paper we demonstrate an electrical injection scheme using a metal microbridge contact in thin III-nitride on silicon mushroom-type microrings that is compatible with integrated nanophotonic circuits with the goal of achieving electrically injected lasing. Using a central buried n-contact to bypass the insulating buffer layers, we are able to underetch the microring, which is essential for maintaining vertical confinement in a thin disk. We demonstrate direct current room-temperature electroluminescence with 440 mW/cm 2 output power density at 20 mA from such microrings with diameters of 30 to 50 μm. The first steps towards achieving an integrated photonic circuit are demonstrated.

Published

2019

14. Efficient second harmonic generation in low-loss planar GaN waveguides.

Author

Gromovyi M, Brault J, Courville A, Rennesson S, Semond F, Feuillet G, Baldi P, Boucaud P, Duboz JY, and De Micheli MP

Abstract

We demonstrate low-loss GaN/AlGaN planar waveguides grown by molecular beam epitaxy on sapphire substrates. By using a proper AlGaN cladding layer and reducing surface roughness we reach <1dB/cm propagation losses at 633nm. These low propagation losses allow an efficient second harmonic generation using modal phase matching between a TM0 pump at 1260nm and a TM2 second harmonic at 630nm. A maximal power conversion of 2% is realized with an efficiency of 0.15%·W -1 cm -2 . We provide a modelling that demonstrates broadband features of GaN/AlGaN platform by showing second harmonic wavelengths tunability from the visible up to the near-infrared spectral region. We discuss drawbacks of modal phase matching and propose a novel solution which allows a drastic improvement of modal overlaps with the help of a planar polarity inversion. This new approach is compatible with low propagation losses and may allow as high as 100%·W -1 cm -2 conversion efficiencies in the future.

Published

2017

15. Phase-matched second harmonic generation with on-chip GaN-on-Si microdisks.

Author

Roland I, Gromovyi M, Zeng Y, El Kurdi M, Sauvage S, Brimont C, Guillet T, Gayral B, Semond F, Duboz JY, de Micheli M, Checoury X, and Boucaud P

Abstract

We demonstrate phase-matched second harmonic generation in gallium nitride on silicon microdisks. The microdisks are integrated with side-coupling bus waveguides in a two-dimensional photonic circuit. The second harmonic generation is excited with a continuous wave laser in the telecom band. By fabricating a series of microdisks with diameters varying by steps of 8 nm, we obtain a tuning of the whispering gallery mode resonances for the fundamental and harmonic waves. Phase matching is obtained when both resonances are matched with modes satisfying the conservation of orbital momentum, which leads to a pronounced enhancement of frequency conversion.

Published

2016

16. Near-infrared III-nitride-on-silicon nanophotonic platform with microdisk resonators.

Author

Roland I, Zeng Y, Checoury X, El Kurdi M, Sauvage S, Brimont C, Guillet T, Gayral B, Gromovyi M, Duboz JY, Semond F, de Micheli MP, and Boucaud P

Abstract

We have developed a nanophotonic platform with microdisks using epitaxial III-nitride materials on silicon. The two-dimensional platform consists of suspended waveguides and mushroom-type microdisks as resonators side-coupled with a bus waveguide. Loaded quality factors up to 80000 have been obtained in the near-infrared spectral range for microdisk diameters between 8 and 15 μm. We analyze the dependence of the quality factors as a function of coupling efficiency. We have performed continuous-wave second harmonic generation experiments in resonance with the whispering gallery modes supported by the microdisks.

Published

2016

17. Electric field effects on excitons in gallium nitride.

Author

Binet F, Duboz JY, Rosencher E, Scholz F, and Härle V V

Published

1996

18. Hot-electron transport in epitaxial CoSi2 films.

Author

Duboz JY and Badoz PA

Published

1991

19. Evidence for Fermi-energy pinning relative to either valence or conduction band in Schottky barriers.

Author

Duboz JY, Badoz PA, d'Avitaya FA, and Rosencher E

Published

1989