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Dive into the research topics where L. Rigutti is active.

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Featured researches published by L. Rigutti.


Nano Letters | 2011

M-Plane Core-Shell InGaN/GaN Multiple-Quantum-Wells on GaN Wires for Electroluminescent Devices

Robert Koester; Jun-Seok Hwang; Damien Salomon; Xiaojun Chen; Catherine Bougerol; Jean-Paul Barnes; Daniel Le Si Dang; L. Rigutti; Andres De Luna Bugallo; G. Jacopin; M. Tchernycheva; Christophe Durand; J. Eymery

Nonpolar InGaN/GaN multiple quantum wells (MQWs) grown on the {11-00} sidewalls of c-axis GaN wires have been grown by organometallic vapor phase epitaxy on c-sapphire substrates. The structural properties of single wires are studied in detail by scanning transmission electron microscopy and in a more original way by secondary ion mass spectroscopy to quantify defects, thickness (1-8 nm) and In-composition in the wells (∼16%). The core-shell MQW light emission characteristics (390-420 nm at 5 K) were investigated by cathodo- and photoluminescence demonstrating the absence of the quantum Stark effect as expected due to the nonpolar orientation. Finally, these radial nonpolar quantum wells were used in room-temperature single-wire electroluminescent devices emitting at 392 nm by exploiting sidewall emission.


Nano Letters | 2011

Nanometer Scale Spectral Imaging of Quantum Emitters in Nanowires and Its Correlation to Their Atomically Resolved Structure

Luiz Fernando Zagonel; Stefano Mazzucco; Marcel Tencé; Katia March; Romain Bernard; Benoît Laslier; G. Jacopin; M. Tchernycheva; L. Rigutti; F. H. Julien; R. Songmuang; Mathieu Kociak

We report the spectral imaging in the UV to visible range with nanometer scale resolution of closely packed GaN/AlN quantum disks in individual nanowires using an improved custom-made cathodoluminescence system. We demonstrate the possibility to measure full spectral features of individual quantum emitters as small as 1 nm and separated from each other by only a few nanometers and the ability to correlate their optical properties to their size, measured with atomic resolution. The direct correlation between the quantum disk size and emission wavelength provides evidence of the quantum confined Stark effect leading to an emission below the bulk GaN band gap for disks thicker than 2.6 nm. With the help of simulations, we show that the internal electric field in the studied quantum disks is smaller than what is expected in the quantum well case. We show evidence of a clear dispersion of the emission wavelengths of different quantum disks of identical size but different positions along the wire. This dispersion is systematically correlated to a change of the diameter of the AlN shell coating the wire and is thus attributed to the related strain variations along the wire. The present work opens the way both to fundamental studies of quantum confinement in closely packed quantum emitters and to characterizations of optoelectronic devices presenting carrier localization on the nanometer scale.


Nano Letters | 2010

Ultraviolet Photodetector Based on GaN/AlN Quantum Disks in a Single Nanowire

L. Rigutti; M. Tchernycheva; A. De Luna Bugallo; G. Jacopin; F. H. Julien; Luiz Fernando Zagonel; Katia March; Odile Stéphan; Mathieu Kociak; R. Songmuang

We report the demonstration of single-nanowire photodetectors relying on carrier generation in GaN/AlN QDiscs. Two nanowire samples containing QDiscs of different thicknesses are analyzed and compared to a reference binary n-i-n GaN nanowire sample. The responsivity of a single wire QDisc detector is as high as 2 x 10(3) A/W at lambda = 300 nm at room temperature. We show that the insertion of an axial heterostructure drastically reduces the dark current with respect to the binary nanowires and enhances the photosensitivity factor (i.e., the ratio between the photocurrent and the dark current) up to 5 x 10(2) for an incoming light intensity of 5 mW/cm(2). Photocurrent spectroscopy allows identification of the spectral contribution related to carriers generated within large QDiscs, which lies below the GaN band gap due to the quantum confined Stark effect.


Nano Letters | 2014

Integrated Photonic Platform Based on InGaN/GaN Nanowire Emitters and Detectors

M. Tchernycheva; Agnes Messanvi; A. De Luna Bugallo; G. Jacopin; Pierre Lavenus; L. Rigutti; Hezhi Zhang; Y. Halioua; F. H. Julien; J. Eymery; Christophe Durand

We report the fabrication of a photonic platform consisting of single wire light-emitting diodes (LED) and photodetectors optically coupled by waveguides. MOVPE-grown (metal-organic vapor-phase epitaxy) InGaN/GaN p-n junction core-shell nanowires have been used for device fabrication. To achieve a good spectral matching between the emission wavelength and the detection range, different active regions containing either five narrow InGaN/GaN quantum wells or one wide InGaN segment were employed for the LED and the detector, respectively. The communication wavelength is ∼400 nm. The devices are realized by means of electron beam lithography on Si/SiO2 templates and connected by ∼100 μm long nonrectilinear SiN waveguides. The photodetector current trace shows signal variation correlated with the LED on/off switching with a fast transition time below 0.5 s.


Nanotechnology | 2010

Visible-blind photodetector based on p?i?n junction GaN nanowire ensembles

Andrés De Luna Bugallo; M. Tchernycheva; Gwenole Jacopin; L. Rigutti; F. H. Julien; Shu-Ting Chou; Yuan-Ting Lin; Po-Han Tseng; Li-Wei Tu

We report the synthesis, fabrication and extensive characterization of a visible-blind photodetector based on p-i-n junction GaN nanowire ensembles. The nanowires were grown by plasma-assisted molecular beam epitaxy on an n-doped Si(111) substrate, encapsulated into a spin-on-glass and processed using dry etching and metallization techniques. The detector presents a high peak responsivity of 0.47 A W(-1) at - 1 V. The spectral response of the detector is restricted to the UV range with a UV-to-visible rejection ratio of 2 x 10(2). The dependence on the incident power and the operation speed of the photodetector are discussed.


Applied Physics Letters | 2011

Single-wire photodetectors based on InGaN/GaN radial quantum wells in GaN wires grown by catalyst-free metal-organic vapor phase epitaxy

A. De Luna Bugallo; L. Rigutti; G. Jacopin; F. H. Julien; Christophe Durand; Xiao Jun Chen; Damien Salomon; J. Eymery; M. Tchernycheva

We present a letter on single-wire photodetectors based on radial n-i-n multiquantum well (QW) junctions. The devices are realized from GaN wires grown by catalyst-free metalorganic vapor phase epitaxy coated at their top by five nonpolar In0.16Ga0.84N/GaN undoped radial QWs, and are sensitive to light with energy E>2.6 eV. Their photoconductive gain is as high as 2×103. The scanning photocurrent microscopy maps evidence that the detector response is localized at the extremity containing the QWs for both below (at λ=488 nm) and above GaN band gap (at λ=244 nm) excitation. This confirms that the device operates as a radial n-i-n junction.


Nano Letters | 2014

Correlation of microphotoluminescence spectroscopy, scanning transmission electron microscopy, and atom probe tomography on a single nano-object containing an InGaN/GaN multiquantum well system.

L. Rigutti; Ivan Blum; Deodatta Shinde; D Hernandez-Maldonado; W. Lefebvre; J. Houard; F. Vurpillot; A. Vella; M. Tchernycheva; Christophe Durand; J. Eymery; B. Deconihout

A single nanoscale object containing a set of InGaN/GaN nonpolar multiple-quantum wells has been analyzed by microphotoluminescence spectroscopy (μPL), high-resolution scanning transmission electron microscopy (HR-STEM) and atom probe tomography (APT). The correlated measurements constitute a rich and coherent set of data supporting the interpretation that the observed μPL narrow emission lines, polarized perpendicularly to the crystal c-axis and with energies in the interval 2.9-3.3 eV, are related to exciton states localized in potential minima induced by the irregular 3D In distribution within the quantum well (QW) planes. This novel method opens up interesting perspectives, as it will be possible to apply it on a wide class of quantum confining emitters and nano-objects.


Applied Physics Express | 2012

Single-Wire Light-Emitting Diodes Based on GaN Wires Containing Both Polar and Nonpolar InGaN/GaN Quantum Wells

G. Jacopin; Andres De Luna Bugallo; Pierre Lavenus; L. Rigutti; F. H. Julien; Luiz Fernando Zagonel; Mathieu Kociak; Christophe Durand; Damien Salomon; Xiao Jun Chen; J. Eymery; M. Tchernycheva

Single-wire light-emitting diodes based on radial p–i–n multi quantum well (QW) junctions have been realized from GaN wires grown by catalyst-free metal organic vapor phase epitaxy. The InxGa1-xN/GaN undoped QW system is coated over both the nonpolar lateral sidewalls and on the polar upper surface. Cathodo- and electroluminescence (EL) experiments provide evidence that the polar QWs emit in the visible spectral range at systematically lower energy than the nonpolar QWs. The EL of the polar or nonpolar QWs can be selectively activated by varying the sample temperature and current injection level.


Journal of Applied Physics | 2011

Optical properties of wurtzite/zinc-blende heterostructures in GaN nanowires

G. Jacopin; L. Rigutti; L. Largeau; F. Fortuna; Florian Furtmayr; F. H. Julien; M. Eickhoff; M. Tchernycheva

The optical and structural properties of wurtzite GaN nanowires containing zinc-blende GaN inclusions of different thicknesses are investigated. Micro-photoluminescence spectra of single nanowires exhibit a series of narrow emission peaks with linewidth as low as 0.8 meV in the interval 3.1–3.42 eV. The peak energy blue-shifts with increasing excitation power following a ∼I1/3 law due to the progressive band filling and to the screening of the internal field. The quantum confinement in these type-II crystal phase heterostructures was simulated in the framework of a one-dimensional effective mass model, accounting for the internal electrical polarization of the wurtzite GaN. The predicted transition energies are in good agreement with the energy statistics realized on more than 30 single nanowire emission spectra.


Nanotechnology | 2012

Photovoltaic properties of GaAsP core–shell nanowires on Si(001) substrate

M. Tchernycheva; L. Rigutti; G Jacopin; A. De Luna Bugallo; P Lavenus; F. H. Julien; M Timofeeva; A D Bouravleuv; G. E. Cirlin; Veer Dhaka; Harri Lipsanen; L. Largeau

We report on the growth and electro-optical studies of photovoltaic properties of GaAsP nanowires. Low density GaAsP nanowires were grown by Au assisted MOVPE on Si(001) substrates using a two step procedure to form a radial p-n junction. The STEM analyses show that the nanowires have cubic structure with the alloy composition GaAs₀.₈₈P₀.₁₂ in the nanowire core and GaAs₀.₇₆P₀.₂₄ in the shell. The nanowire ensembles were processed in the form of sub-millimeter size mesas. The photovoltaic properties were characterized by optical beam induced current (OBIC) and electronic beam induced current (EBIC) maps. Both OBIC and EBIC maps show that the photovoltage is generated by the nanowires; however, a strong signal variation from wire to wire is observed. Only one out of six connected nanowires produce a measurable signal. These strong fluctuations can be tentatively explained by the variation of the resistance of the nanowire-to-substrate connection, which is highly sensitive to the quality of the Si-GaAsP interface. This study demonstrates the importance of the spatially resolved charge collection microscopy techniques for the diagnosis of failures in nanowire photovoltaic devices.

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F. H. Julien

University of Paris-Sud

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F. Vurpillot

Centre national de la recherche scientifique

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G. Jacopin

University of Paris-Sud

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F. H. Julien

University of Paris-Sud

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Christophe Durand

Centre national de la recherche scientifique

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J. Eymery

Centre national de la recherche scientifique

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J. Houard

Centre national de la recherche scientifique

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