Precise wavelength control for DFB laser diodes by novel corrugation delineation method

Muroya, Y.; Nakamura, Takahiro; Yamada, Hirohito; Torikai, T.

doi:10.1109/68.556049

Cited by 48 publications

(11 citation statements)

References 8 publications

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“…A multiple-wavelength distributed feedback laser diode (DFB-LD) array, with precisely controllable wavelengths is a very attractive light source for use in WDM systems. The use of electron-beam lithography for the definition of the grating pitch allows reaching a standard deviation as low as 0.37nm across 2-inch wafers [12]. The deviations in threshold current and in maximum output power of DFB lasers coupled to SOI have been reported [13].…”

Section: Introductionmentioning

confidence: 99%

Uniformity of the lasing wavelength of heterogeneously integrated InP microdisk lasers on SOI

Mechet¹,

Raineri²,

Bazin³

et al. 2013

Opt. Express

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Abstract:We report a high lasing wavelength uniformity of optically pumped InP-based microdisk lasers processed with electron-beam lithography, heterogeneously integrated with adhesive bonding on siliconon-insulator (SOI) waveguide circuits and evanescently coupled to an underlying waveguide. We study the continuous wave laser emission coupling out of the SOI via a grating coupler etched at one side of the waveguide, and demonstrate a standard deviation in lasing wavelength of nominally identical devices on the same chip lower than 500pm. The deviation in the diameter of the microdisks as low as a few nanometers makes all-optical signal processing applications requiring cascadability possible.

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Section: Introductionmentioning

confidence: 99%

Uniformity of the lasing wavelength of heterogeneously integrated InP microdisk lasers on SOI

Mechet¹,

Raineri²,

Bazin³

et al. 2013

Opt. Express

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“…Since the sampling period is large, the wavelength of the phase-shift is much easier to control. For example, to make a phase-shift Bragg-grating array at 1.5 m wavelength range using the EPS method with m and nm, the step size of the sampling period is around 250 nm to generate a resonance wavelength spacing of 25 GHz ( nm), which is 500 times larger than directly changing the grating period in a conventional phase-shift grating [8]. The proposed method and fabrication process is thus highly tolerant of fabrication inaccuracies, enabling low-cost lithography to be used as well as mass production.…”

Section: Resultsmentioning

confidence: 99%

Phase-Shift Bragg Grating in Silicon Using Equivalent Phase-Shift Method

Sun

Holzwarth

Smith

2012

IEEE Photon. Technol. Lett.

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The design, fabrication, and measurement of a phase-shift Bragg grating in silicon using the equivalent phase-shift method are presented. Fabrication constrains are largely relaxed with this method, compared to that with conventional phase-shift structure using electron-beam lithography, enabling the fabrication of high-precision phase-shift gratings with low-cost lithography. We fabricated an equivalent phase-shift Bragg grating in silicon with optical-contact-lithography and interference lithography. The transmission spectrum shows that an equivalent quarter-wave phase-shift is achieved.

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“…Stable wavelengths of DFB lasers are also required for wavelength division multiplexing (WDM) network systems [6][7][8]. Furthermore, uncooled, directly modulated DFB-LDS are one of the key devices for 10 GB/s Ethernet and OC-192 applications in recent years [9][10][11][12].…”

Section: Introductionmentioning

confidence: 99%

Scatterometry measurement of ingaasp/inp grating for DFB lasers grown with MOVPE

Muroya

Katoh

Makino

et al. 2007

Journal of Crystal Growth

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Precise wavelength control for DFB laser diodes by novel corrugation delineation method

Cited by 48 publications

References 8 publications

Uniformity of the lasing wavelength of heterogeneously integrated InP microdisk lasers on SOI

Uniformity of the lasing wavelength of heterogeneously integrated InP microdisk lasers on SOI

Phase-Shift Bragg Grating in Silicon Using Equivalent Phase-Shift Method

Scatterometry measurement of ingaasp/inp grating for DFB lasers grown with MOVPE

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