Nano-height cylindrical waveguide in GaN-based vertical-cavity surface-emitting lasers

Kuramoto, Masaru; Kobayashi, Seiichiro; Akagi, Takanobu; Tazawa, Kenji; Tanaka, Hiroki; Takeuchi, Tetsuya

doi:10.35848/1882-0786/aba45b

Cited by 20 publications

(14 citation statements)

References 33 publications

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“…Recent numerous GaN-based VCSELs have adopted the AlInN/GaN bottom DBRs to achieve high performances. [78][79][80][81] In 2016, Ikeyama et al proposed a GaN VCSEL with a top 8-pair Nb 2 O 5 /SiO 2 DBR and bottom 46-pair AlInN/GaN DBR. [82] The reflectivity of two DBRs were both designed to be 99.9% at the lasing wavelength of 405.1 nm.…”

Section: Hybrid Dielectric and Alinn/gan Dbrmentioning

confidence: 99%

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Progress of GaN‐Based Optoelectronic Devices Integrated with Optical Resonances

Zhao

Liu

Wang

2022

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are even smaller, only a few MHz, which are far away from the requirement of fast and large data wireless transmission for VLC. [5] To enhance the data transmission rates, complex modulation schemes and/ or equalization have to be utilized, which, however, hinder the further developments and applications. In addition, Si-based optoelectronic devices, like Si PDs, a bluefiltering technology are still used currently for shorter wavelength visible light detection, which suffers from complexity and low light transmittance. Furthermore, considering the development and mature application of GaN-based devices, there is a trend to realize the multifunctional single chip integration. However, the relative low coupling efficiency in the GaNbased optoelectronic devices still cannot meet the requirements. In this case, it is important to develop novel GaN-based optoelectronic devices with superior performances as alternative for miniaturization, simplification, and integration. To solve these problems, the concept of incorporating GaN-based devices with exotic optical resonances has been proposed. [5] Surface plasmons (SPs), microcavities, such as whispering gallery modes (WGMs) and distributed Bragg reflectors (DBR) are common optical resonant structures to improve the performances of GaN-based devices. [6][7][8][9] SPs are intrinsic electromagnetic modes excited at the metal-dielectric interfaces, accompanied with the collective oscillation behaviors of free electrons on the metal-side surfaces. [10] Giant electric field enhancement generates at the interface with exponentially decay along the perpendicular direction. Inside the GaN-based devices, the excitation of SPs can greatly enhance the density of states of the electron-hole pairs and improve the competitiveness of the radiative recombination to the non-radiative recombination. [11] It has also been demonstrated tremendously in early works that using SPs enables a path to break the optical diffraction limit of the semiconductor lasers and boost the light-matter coupling intensities in subwavelength dimensions. [11][12][13][14][15][16][17] In addition, GaN-based microcavities, such as photonics crystals, DBR, and micro disks, can confine and manipulate light. [18][19][20] By matching one or more dimensions of the cavities to the wavelength of the confined light, exotic effects can be produced, such as enhanced luminescence, directional emission, low-threshold lasing, etc. When light illuminates microcavities, the confined electron-hole pairs interact with the cavity photons. Their interaction rate relative to the average Being direct wide bandgap, III-nitride (III-N) semiconductors have many applications in optoelectronics, including light-emitting diodes, lasers, detectors, photocatalysis, etc. Incorporation of III-N semiconductors with high-efficiency optical resonances including surface plasmons, distributed Bragg reflectors and micro cavities, has attracted considerable interests for upgrading their performance, which can not only reveal the new coupling mechanism...

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Section: Hybrid Dielectric and Alinn/gan Dbrmentioning

confidence: 99%

“…Recent numerous GaN‐based VCSELs have adopted the AlInN/GaN bottom DBRs to achieve high performances. [ 78–81 ] In 2016, Ikeyama et al. proposed a GaN VCSEL with a top 8‐pair Nb 2 O 5 /SiO 2 DBR and bottom 46‐pair AlInN/GaN DBR.…”

Section: Distributed Bragg Resonatorsmentioning

confidence: 99%

Progress of GaN‐Based Optoelectronic Devices Integrated with Optical Resonances

Zhao

Liu

Wang

2022

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“…Lateral optical mode confinement can be realized by using the buried SiO 2 layer below indium-tin-oxide (ITO), where the design can also reduce the internal loss [9] . However, an even easier method to achieve the lateral mode confinement is locally varying the cavity length, and therefore a nano-height cylindrical waveguide structure has been reported [10] . Another obstacle that hinders the improvement for the laser power is low hole injection, which arises from the current crowding effect at the aperture periphery and the hole blocking effect by the p-AlGaN electron blocking layer (p-EBL).…”

Section: Introductionmentioning

confidence: 99%

Impact of p-AlGaN/GaN hole injection layer on GaN-based vertical cavity surface emitting laser diodes [Invited]

et al. 2022

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The hole injection capability is essentially important for GaN-based vertical cavity surface emitting lasers (VCSELs) to enhance the laser power. In this work, we propose GaN-based VCSELs with the p-AlGaN/p-GaN structure as the p-type hole supplier to facilitate the hole injection. The p-AlGaN/p-GaN heterojunction is able to store the electric field and thus can moderately adjust the drift velocity and the kinetic energy for holes, which can improve the thermionic emission process for holes to travel across the p-type electron blocking layer (p-EBL). Besides, the valence band barrier height in the p-EBL can be reduced as a result of usage of the p-AlGaN layer. Therefore, the better stimulated radiative recombination rate and the increased laser power are obtained, thus enhancing the 3 dB frequency bandwidth. Moreover, we also investigate the impact of the p-AlGaN/p-GaN structure with various AlN compositions in the p-AlGaN layer on the hole injection capability, the laser power, and the 3 dB frequency bandwidth.

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“…Very recently, Kuramoto et al have developed a nano-height cylindrical waveguide (NCW) structure which was simply formed by a chlorine-based single dry etching process in GaN-based VCSELs. 22) A 5 nm high cylindrical step at the center of the device sufficiently provides a relative refractive index contrast, Δn/n, of 0.17% as the optical confinement, and the current confinement was simultaneously achieved due to a so-called dry etching damage which was originally demonstrated by Cosendey et al 25) Even with such a simple process for the current/optical confinement in Ref. 22, the GaN-based VCSELs with 7 and 3.3 μm NCW apertures have shown superior device characteristics, a 23.7 mW maximum LOP and a 43.6% external differential quantum efficiency for the 7 μm aperture case.…”

mentioning

confidence: 99%

“…22) A 5 nm high cylindrical step at the center of the device sufficiently provides a relative refractive index contrast, Δn/n, of 0.17% as the optical confinement, and the current confinement was simultaneously achieved due to a so-called dry etching damage which was originally demonstrated by Cosendey et al 25) Even with such a simple process for the current/optical confinement in Ref. 22, the GaN-based VCSELs with 7 and 3.3 μm NCW apertures have shown superior device characteristics, a 23.7 mW maximum LOP and a 43.6% external differential quantum efficiency for the 7 μm aperture case. 22) At the same time, details of the etching process and its current blocking characteristics were not described yet, and the GaN-based VCSELs with wider NCW structures more than 7 μm diameter have not been investigated.…”

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confidence: 99%

Aperture diameter dependences in GaN-based vertical-cavity surface-emitting lasers with nano-height cylindrical waveguide formed by BCl₃ dry etching

Iida

Ueshima

Iwayama

et al. 2020

Appl. Phys. Express

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We demonstrated GaN-based vertical-cavity surface emitting lasers (VCSELs) with 5–30 μm wide nano-height cylindrical waveguide formed by BCl3 etching. A 5 nm-depth etching with BCl3 showed the most efficient current blocking at the interface of the etched p++-GaN and an ITO electrode among the cases with BCl3, Ar, or O2, which could be due to not only etching damages but also diffused B atoms into the etched surface. While room-temperature continuous-wave operations of the VCSELs with the large apertures were demonstrated, maximum light output power values of the large aperture VCSELs seemed limited by nonuniform current injection and device thermal resistances.

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Nano-height cylindrical waveguide in GaN-based vertical-cavity surface-emitting lasers

Cited by 20 publications

References 33 publications

Progress of GaN‐Based Optoelectronic Devices Integrated with Optical Resonances

Progress of GaN‐Based Optoelectronic Devices Integrated with Optical Resonances

Impact of p-AlGaN/GaN hole injection layer on GaN-based vertical cavity surface emitting laser diodes [Invited]

Aperture diameter dependences in GaN-based vertical-cavity surface-emitting lasers with nano-height cylindrical waveguide formed by BCl₃ dry etching

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Nano-height cylindrical waveguide in GaN-based vertical-cavity surface-emitting lasers

Cited by 20 publications

References 33 publications

Progress of GaN‐Based Optoelectronic Devices Integrated with Optical Resonances

Progress of GaN‐Based Optoelectronic Devices Integrated with Optical Resonances

Impact of p-AlGaN/GaN hole injection layer on GaN-based vertical cavity surface emitting laser diodes [Invited]

Aperture diameter dependences in GaN-based vertical-cavity surface-emitting lasers with nano-height cylindrical waveguide formed by BCl3 dry etching

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Aperture diameter dependences in GaN-based vertical-cavity surface-emitting lasers with nano-height cylindrical waveguide formed by BCl₃ dry etching