Dual Sagnac loop mirror SOA-based widely tunable dual-output port fiber laser

Ummy, Muhammad A.; Madamopoulos, Nicholas; Lama, P.; Dorsinville, R.

doi:10.1364/oe.17.014495

Cited by 21 publications

(16 citation statements)

References 22 publications

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“…Up to 29 stable lasing lines with 0.4 nm spacing and 14 lasing wavelengths with 0.8 nm spacing in 3 dB bandwidth were obtained. Wavelength tunability can also be obtained through the use of a thin film tunable filter (Ummy et al, 2009). A widely tunable (30 nm) fiber laser based on two Sagnac loop mirrors and a tunable thin film filter has been demonstrated, where optical power adjustability is accomplished by proper adjustment of each of the loop mirror reflectivity via a polarization controller.…”

Section: Wwwintechopencommentioning

confidence: 99%

“…Many gain media are suitable for single-wavelength lasing in a fiber cavity, including erbium-doped fiber amplifiers (EDFA) (Antoine Bellemare, 2003), semiconductor optical amplifiers (SOA) (Ummy et al, 2009), and hybrid gain media (Yeh&Chi, 2005). SOA-based fiber ring lasers have limited optical signal-to-noise ratio (OSNR), while EDFAs are ideal for single-wavelength tunable fiber ring lasers.…”

Section: Single Gain Mediummentioning

confidence: 99%

See 1 more Smart Citation

Tunable Fibre Lasers Based on Optical Amplifiers and an Opto-VLSI Processor

Xiao¹,

Alameh²,

Lee³

2011

Advances in Optical Amplifiers

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Section: Wwwintechopencommentioning

confidence: 99%

Section: Single Gain Mediummentioning

confidence: 99%

Tunable Fibre Lasers Based on Optical Amplifiers and an Opto-VLSI Processor

Xiao¹,

Alameh²,

Lee³

2011

Advances in Optical Amplifiers

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“…All-single-mode fiber-based Sagnac loop mirrors have been widely used in temperature [18], strain [19], and pressure [20] high sensitivity sensors as well as in wavelength optical switches [21]. Moreover, SLMs with adjustable reflectivity have been used to form Fabry-Perot linear resonators [22][23][24][25] where the amount of the output optical power from the resonators depends on the reflectivity of the SLMs [26,27]. In this work, two SLMs were used to control the amount of optical power delivered from two output ports of the proposed fiber compound-ring laser.…”

Section: Introductionmentioning

confidence: 99%

A Novel Technique for Designing High Power Semiconductor Optical Amplifier (SOA)-Based Tunable Fiber Compound-Ring Lasers Using Low Power Optical Components

2017

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A simple, stable and inexpensive dual-output port widely tunable semiconductor optical amplifier (SOA)-based fiber compound-ring laser structure is demonstrated. This unique nested ring cavity enables high optical power to split into different branches where amplification and wavelength selection are achieved by using low-power SOAs and a tunable filter. Furthermore, two Sagnac loop mirrors, which are spliced at the two ends of the compound-ring cavity not only serve as variable reflectors but also channel the optical energy back to the same port without using any high optical power combiner. We propose and discuss how the demonstrated fiber compound-ring laser structure can be extended in order to achieve a high power fiber laser source by using low power optical components, such as N × N couplers and (N > 1) number of SOAs. A coherent beam-combining efficiency of over 98% for two parallel nested fiber ring resonators is achieved over the C-band tuning range of 30 nm. Optical signal-to-noise ratio (OSNR) of +45 dB, and optical power fluctuation of less than ±0.02 dB are measured over three hours at room temperature.

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“…These include linear cavities [7], ring cavities [8][9], compound fiber ring cavities [10], and Fox-Smith cavities [11]. The wavelength selectivity can be achieved by inserting various wavelength selective elements in the cavity, such as an Opto-VLSI processor [12], a FabryPerot etalon [13], fiber comb filters [14] or an interferometer filter [15].…”

Section: Introductionmentioning

confidence: 99%

Tunable multi-wavelength SOA based linear cavity fiber laser source for optical communications applications

Ummy

Madamopoulos

Dorsinville

2011

2011 International Conference on Communications and Information Technology (ICCIT)

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We propose and demonstrate a simple compact, inexpensive, SOA-based, multi-wavelength tunable (C-to Lband) fiber laser. A C-band design SOA is used, yet multiwavelength operation either at the C or L-band region is accomplished by exploiting the gain compression phenomena of the SOA. We demonstrate that the wavelength tunability can be achieved either by inserting a variable attenuator inside the cavity of the laser or by changing the reflectivity of the mirrors. We exploit two different kinds of loop mirrors, a Sagnac and a Lyot-Sagnac loop mirror, which perform multiple functions. Stable multi-wavelength operation is achieved at room temperature without temperature compensation techniques, with measured power and the wavelength stability within < ±0.5 dB and ±0.1 nm, respectively.

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Dual Sagnac loop mirror SOA-based widely tunable dual-output port fiber laser

Cited by 21 publications

References 22 publications

Tunable Fibre Lasers Based on Optical Amplifiers and an Opto-VLSI Processor

Tunable Fibre Lasers Based on Optical Amplifiers and an Opto-VLSI Processor

A Novel Technique for Designing High Power Semiconductor Optical Amplifier (SOA)-Based Tunable Fiber Compound-Ring Lasers Using Low Power Optical Components

Tunable multi-wavelength SOA based linear cavity fiber laser source for optical communications applications

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