J.B.D. Soole scite author profile

We report a two-dimensional grating spectrometer implemented in an InP/InGaAsP/InP planar waveguide for use in the low-loss 1.5 μm wavelength fiber band. The spectrometer uses a single vertical-walled focusing reflection grating to disperse 78 channels, spaced at 1 nm intervals, with diffraction-limited resolution (∼0.3 nm) and a high channel isolation (≳19 dB). The spectrometer may be used such that it is insensitive to the state of the input polarization.

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Ultracompact monolithic integration of balanced, polarization diversity photodetectors for coherent lightwave receivers

Deri¹,

Pennings²,

Scherer³

et al. 1992

IEEE Photon. Technol. Lett.

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Abstract-We monolithically integrate an optical front-end on InP for balanced, polarization-diversity coherent lightwave reception which is only 1 3 mm long. Low on-chip insertion loss (<4.5 dB) and balanced photoresponse (1.05:l or better) are achieved at 1.5 pm wavelength using straightforward, regrowth-free fabrication. Low capacitance photodetectors ( I 0.15 pF) are employed for high bandwidth operation.ONOLITHIC integration of optical waveguide de-M vices with other optoelectronics enhances on-chip functionality, and improves packaging cost and reliability by minimizing hybrid optical interconnections. A target application for such integration has been coherent lightwave receiver front-ends, combining photodetectors with 3 dB waveguide couplers for balanced operation [11-[6] and polarization-splitting optics for polarization-insensitive reception using diversity architectures [5], [6]. Compatibility with high 111-V materials' cost, however, requires high-yield integration processes and compact device size. The large size, typically several millimeters, of waveguide couplers with associated input-output branching is a serious obstacle to cost-effective monolithic integration. We previously reported alternative approaches for ultra-compact 3 dB couplers [7] and polarization-selective detectors [8]. Here we integrate both device types on a single InP chip to realize an ultracompact (1.3 x 0.4 mm'), balanced, polarization-diversity photodetector which is easy to fabricate (no epitaxial regrowth, minimal photolithography) and exhibits low detector capacitance (< 0.15 pF).Our device (Fig. 1) consists of two single-mode input rib waveguides for photosignal and local oscillator (LO) inputs, a multi-mode interference [9] (MMI)

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Efficient vertical coupling of photodiodes to InGaAsP rib waveguides

Deri¹,

Döldissen²,

Hawkins³

et al. 1991

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We demonstrate vertical integration of InGaAs mesa photodiodes with InGaAsP rib waveguides employing an intermediate optical impedance matching layer. The diode length necessary for 90% light absorption at 1.52 μm wavelength was 42 μm, a threefold reduction in diode length with respect to previous work employing similar waveguides without a matching layer. The quantum efficiency was observed to be almost independent of the optical wavelength and polarization. The influence of spatial transient intensity redistribution effects on these devices is investigated in detail.

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J.B.D. Soole

InGaAs metal-semiconductor-metal photodetectors for long wavelength optical communications

Transit-time limited frequency response of InGaAs MSM photodetectors

Passband broadening of integrated arrayed waveguide filters using multimode interference couplers

Two-photon absorption and self-phase modulation in InGaAsP/InP multi-quantum-well waveguides

Polarisation-independent InP arrayed waveguide filter using square cross-section waveguides

Monolithic InP/InGaAsP/InP grating spectrometer for the 1.48–1.56 μm wavelength range

Ultracompact monolithic integration of balanced, polarization diversity photodetectors for coherent lightwave receivers

Efficient vertical coupling of photodiodes to InGaAsP rib waveguides

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