The noise figure and gain improvement of double‐pass C‐band EDFA

Yücel, Murat; Aslan, Zuhal

doi:10.1002/mop.27854

Cited by 14 publications

(10 citation statements)

References 23 publications

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“…The noise figure of an EDFA is given by:

Noise Figure = \frac{1}{G} + \frac{P_{ASE}}{G h ν Δ ν}

where, G is the gain associated with the fiber, P ASE is the ASE power, which consists of both forward and backward ASE, h is the Planck constant, ν is the frequency of the signal and Δ ν is the signal bandwidth. The gain for three stage EDFA was adopted from the reported two stage configuration and is given by,

Gain = \exp false[- α_{normals} true(L_{1} + L_{2} + L_{3} true) . \exp false[\frac{h ν_{normals}}{P_{s intrinsic}} false(\frac{P_{normalp} true(0 true) - P_{normalp} true(L_{1} true) - P_{normalp} true(L_{2} true) - P_{normalp} true(L_{3} true)}{h ν_{normalp}} + \frac{true[P_{normals} true(0 true) + P_{ASE}^{\pm} true(0 true) true] - P_{normalP} true(L_{2} true) - P_{normalP} true(L_{3} true) + true(P_{S} true(L_{3} true) + P_{ASE}^{\pm} (L_{1}) + P_{ASE}^{\pm} (L_{2}) + P_{ASE}^{\pm} (L_{3}) true)}{h v_{normals}} false) false] false]

where, P s and P p is the signal and pump power in the forward direction. α s is the absorption of the signal, L n are the lengths of the respective fibers.…”

Section: Methodsmentioning

confidence: 99%

An L‐band‐cascaded erbium‐doped fiber amplifier for uniform gain without gain equalizing filter

Anthony¹,

Lahiri

Biswas³

2014

Micro & Optical Tech Letters

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In the letter, a high gain‐naturally flattened L‐band erbium‐doped fiber amplifier (EDFA) is demonstrated. The system uses two bidirectionally pumped lasers for exciting Er3+ in three cascaded fiber amplifiers. The maximum gain of ∼36.4 dB and equalized gain of over 26 dB in the absence of any gain flattening filter with ∼2.5‐dB variation over 35 nm (1572–1608 nm) was obtained. Studies for varying amplifier lengths; signal power and pump powers have also been reported. The proposed EDFA has a noise figure below 5 dB and was found to be stable at extreme temperatures. © 2014 Wiley Periodicals, Inc. Microwave Opt Technol Lett 56:2053–2055, 2014

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“…The noise figure of an EDFA is given by:

Noise Figure = \frac{1}{G} + \frac{P_{ASE}}{G h ν Δ ν}

Gain = \exp false[- α_{normals} true(L_{1} + L_{2} + L_{3} true) . \exp false[\frac{h ν_{normals}}{P_{s intrinsic}} false(\frac{P_{normalp} true(0 true) - P_{normalp} true(L_{1} true) - P_{normalp} true(L_{2} true) - P_{normalp} true(L_{3} true)}{h ν_{normalp}} + \frac{true[P_{normals} true(0 true) + P_{ASE}^{\pm} true(0 true) true] - P_{normalP} true(L_{2} true) - P_{normalP} true(L_{3} true) + true(P_{S} true(L_{3} true) + P_{ASE}^{\pm} (L_{1}) + P_{ASE}^{\pm} (L_{2}) + P_{ASE}^{\pm} (L_{3}) true)}{h v_{normals}} false) false] false]

where, P s and P p is the signal and pump power in the forward direction. α s is the absorption of the signal, L n are the lengths of the respective fibers.…”

Section: Methodsmentioning

confidence: 99%

An L‐band‐cascaded erbium‐doped fiber amplifier for uniform gain without gain equalizing filter

Anthony¹,

Lahiri

Biswas³

2014

Micro & Optical Tech Letters

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“…Calculating the noise power of ASE, the gain (G) of the EDFA under disparate power of amplification could be obtained. The calculation formula of G is shown in .

normalG = 10 \log_{10} \frac{P_{italicout}}{P_{italicin}} .

…”

Section: Theorymentioning

confidence: 99%

“…Once the gain of the amplifier and the noise power of ASE are obtained, the noise figure (NF) can be calculated of the re‐amplifier after twice amplification. The calculation formula of NF is shown in .…”

Section: Theorymentioning

confidence: 99%

A novel Michelson interferometer of high interference degree with the application of bi‐direction erbium‐doped fiber amplifier

Yan

et al. 2019

Micro & Optical Tech Letters

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In this paper, a novel Michelson fiber high‐interference optical structure has been proposed. When an optical amplifier is applied into the interference optical path, the signal‐to‐noise ratio (SNR) of the signal light in the optical path is reduced by the amplifier generates amplifier spontaneous emission (ASE) noise. Through this new type of optical path, the ASE in the interference optical path can be suppressed, the SNR of the signal light can be improved, and a higher degree of interference can be achieved.

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“…Thus, it is useful to achieve a low noise figure in proposed configuration as well as high gain. The noise figure is calculated by the below formula [54]; (2) In the proposed system, depending upon the lengths of the fibers obtained from the first pass of the signal, the gain of the amplifier is [43,54,[61][62][63][64]:…”

Section: Simulation Setupmentioning

confidence: 99%

Gain and noise figure enhancements of both C and L bands double pass Erbium Doped Fiber Amplifier

Yücel

Aslan²,

Çelebi

et al. 2013

2013 8th International Conference on Electrical and Electronics Engineering (ELECO)

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In this study, designed and optimized C and L band ErbiumDoped Fiber Amplifiers (EDFA) around 70 nm bandwidth, 36.53 dB average gain with an average noise figure of 5.8 dB properties are used. For this purpose, 16 channels Wavelength Division Multiplexed (WDM) system with channel spacing of 5.3 nm is taken into account. -30 dBm powers at the input signals (1530 nm-1610 nm) are applied to three port filter and then input signals are separated into C and L bands. Each band signals are separately amplified in double pass configuration. Finally, all signals are combined into a coupler and the overall configuration has wide bandwidth, high gain and low noise.

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The noise figure and gain improvement of double‐pass C‐band EDFA

Cited by 14 publications

References 23 publications

An L‐band‐cascaded erbium‐doped fiber amplifier for uniform gain without gain equalizing filter

An L‐band‐cascaded erbium‐doped fiber amplifier for uniform gain without gain equalizing filter

A novel Michelson interferometer of high interference degree with the application of bi‐direction erbium‐doped fiber amplifier

Gain and noise figure enhancements of both C and L bands double pass Erbium Doped Fiber Amplifier

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