25 Gbit/s transmission over 500 m multimode fibre using 850 nm VCSEL with integrated mode filter

Haglund, Erik; Haglund, Åsa; Westbergh, Petter; Gustavsson, Johan S.; Kögel, Benjamin; Larsson, Anders

doi:10.1049/el.2012.0529

Cited by 48 publications

(17 citation statements)

References 7 publications

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“…Such a device would let the VCSEL-based MMF AOC compete with the 1.3 μm DFB-based SMF AOC for the medium reach (2 km) optical interconnect market. Several methods, such as surface relief structures [12], [13], triangular holey structures [14], and antiresonant reflecting optical waveguide structures [15], have been utilized to fabricate VCSELs with a relatively large active diameter, a (near) single-mode, and high-output optical power performance. However, not all the reported single-mode and high-power VCSEL structures may be suitable for the highspeed applications.…”

Section: Introductionmentioning

confidence: 99%

Single-Mode, High-Speed, and High-Power Vertical-Cavity Surface-Emitting Lasers at 850 nm for Short to Medium Reach (2 km) Optical Interconnects

Shi

Wei

Chi

et al. 2013

J. Lightwave Technol.

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The vertical-cavity surface-emitting lasers (VCSELs) with high single-mode (narrow linewidth) output power are essential to minimize chromatic dispersion and to further improve the bit-rate distance product in a multimode fiber, which has a significant propagation loss (∼3.5 dB/km) at 850 nm wavelength. Here, we demonstrate the detailed design considerations and fabrication of a single-mode, high-power, and high-speed VCSELs at the 850 nm wavelength with oxide-relief and Zn-diffusion apertures for the application of short (0.3 km) to medium reach (2 km) optical interconnects. By optimizing the relative geometric sizes between two such apertures in our demonstrated 850-nm VCSELs, we can not only attain high single-mode output power (∼6.5 mW), but also with a reasonable threshold current (< 2.0 mA). Furthermore, the spatial hole burning effect induced low-frequency roll off can also be minimized in our optimized structure to obtain a maximum data rate up to 26 Gbit/s. The record-high bit rate-distance products for OM4 MMF transmission under ON-OFF keying (14 Gbit/s × 2.0 km) modulation formats have been successfully demonstrated by the use of our VCSEL.

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Section: Introductionmentioning

confidence: 99%

Single-Mode, High-Speed, and High-Power Vertical-Cavity Surface-Emitting Lasers at 850 nm for Short to Medium Reach (2 km) Optical Interconnects

Shi

Wei

Chi

et al. 2013

J. Lightwave Technol.

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“…Наиболее перспективным направлением для контроля модового состава ВИЛ [81] является формирование поверхностного рельефа путем локального травления выводного зеркала на глубину, кратную толщине четвертьволнового слоя РБО. Однако с точки зре-ния существенного повышения быстродействия ВИЛ данный подход выигрыша не обеспечивает [82] и преимущественно применяется для повышения дальности передачи данных при сохранении приемлемо высокой скорости [83,84].…”

Section: управление модовым составом излученияunclassified

Высокоскоростные Полупроводниковые Вертикально-Излучающие Лазеры Для Оптических Систем Передачи Данных (Обзор)

Блохин¹,

Малеев²,

Бобров³

et al. 2018

Письма В Журнал Технической Физики

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The main problems of providing a high-speed operation semiconductor lasers with a vertical microcavity (so-called “vertical-cavity surface-emitting lasers”) under amplitude modulation and ways to solve them have been considered. The influence of the internal properties of the radiating active region and the electrical parasitic elements of the equivalent circuit of lasers are discussed. An overview of approaches that lead to an increase of the cutoff parasitic frequency, an increase of the differential gain of the active region, the possibility of the management of mode emission composition and the lifetime of photons in the optical microcavities, and reduction of the influence of thermal effects have been presented. The achieved level of modulation bandwidth of ∼30 GHz is close to the maximum achievable for the classical scheme of the direct-current modulation, which makes it necessary to use a multilevel modulation format to further increase the information capacity of optical channels constructed on the basis of vertical-cavity surface-emitting lasers.

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“…Above these primary oxide layers, four 96% Al-content layers are included in the DBR to reduce the parasitic oxide capacitance which otherwise can limit high-speed performance. The p-doped GaAs contact layer is designed as an antiphase layer which enables the possibility of mode filter integration and post fabrication tuning of the photon lifetime (τ p ) [11,12]. The optical reflection from the top GaAs/air interface is initially completely out-of-phase with reflections further down in the DBR, resulting in a low reflectivity and a short phonon lifetime.…”

Section: Vcsel Designmentioning

confidence: 99%

High-speed 850 nm VCSELs with 28 GHz modulation bandwidth for short reach communication

et al. 2013

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We present results from our new generation of high performance 850 nm oxide confined vertical cavity surface-emitting lasers (VCSELs). With devices optimized for high-speed operation under direct modulation, we achieve record high 3dB modulation bandwidths of 28 GHz for ~4 µm oxide aperture diameter VCSELs, and 27 GHz for devices with a ~7 µm oxide aperture diameter. Combined with a high-speed photoreceiver, the ~7 µm VCSEL enables error-free transmission at data rates up to 47 Gbit/s at room temperature, and up to 40 Gbit/s at 85°C.

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25 Gbit/s transmission over 500 m multimode fibre using 850 nm VCSEL with integrated mode filter

Cited by 48 publications

References 7 publications

Single-Mode, High-Speed, and High-Power Vertical-Cavity Surface-Emitting Lasers at 850 nm for Short to Medium Reach (2 km) Optical Interconnects

Single-Mode, High-Speed, and High-Power Vertical-Cavity Surface-Emitting Lasers at 850 nm for Short to Medium Reach (2 km) Optical Interconnects

Высокоскоростные Полупроводниковые Вертикально-Излучающие Лазеры Для Оптических Систем Передачи Данных (Обзор)

High-speed 850 nm VCSELs with 28 GHz modulation bandwidth for short reach communication

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