Evolution of amplified spontaneous emission and characterization of an optimized two-mode EDFA system obtained from an extended analytical model

Qayoom, Taban; Qazi, Gausia; Hakim, Najeeb-ud-din

doi:10.1007/s10825-020-01566-7

Cited by 5 publications

(5 citation statements)

References 14 publications

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“…The resulting values have been calculated using Eqs. ( 9) to (11). DMNF plot diagram and DSNF bar diagram are shown in Fig.…”

Section: M-𝐄𝐃𝐅𝐀 𝟏𝟒𝟖𝟎 𝐧𝐦 System Performance With 𝑵 𝒊𝒏𝒗 (𝒓) Profilementioning

confidence: 99%

“…( 21). The values are calculated for 𝜂 𝑠𝑝(𝑙𝑚) (𝜂 𝑠𝑝(01) ; 𝜂 𝑠𝑝 (11) ; 𝜂 𝑠𝑝 (21) and 𝜂 𝑠𝑝(02) ) which are shown in Fig. 15 over the ten core segments.…”

Section: Modal Gain Equalization Routinementioning

confidence: 99%

“…The resulting non-linear transmission impairments, make it impossible to increase spectral efficiency indefinitely by raising the launched power [2]. A conventional SMF data carrying capacity limit is determined to be around 100 Tbit/s, which corresponds to the single-mode erbium doped fiber amplifier (SM-EDFA) spectral bandwidth (i.e., 11 THz including the C and L amplification bands) [3]. For overcoming the capacity bottleneck of single-mode fiber, space division multiplexing (SDM) has become a popular study topic in recent years as a method of increasing optical fiber transmission rates.…”

Section: Introductionmentioning

confidence: 99%

“…It is reported that gain equalisation in few-mode amplifiers with more than two 𝐿𝑃 𝑙𝑚 modes was becoming increasingly challenging due to unique modal profiles [9]. So far, the two most common ways for equalizing modal gain have been managing pump modal contents [10] [11] and optimising erbium spatial distributions [9][12] [13]. Other gain equalisation solutions have been described as well, such as cladding pumped arrangement [14], designing an EDF with a particular refractive index profile [15].…”

Section: Introductionmentioning

confidence: 99%

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Modified differential overlap factor and modal gain equalization criteria-based comparative analysis of 4M-EDFA 980;1480 nm towards identification of a unique erbium doping profile for the 4M-EDFA1480 nm system

Naik

Qazi

2023

J Comput Electron

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Space division multiplexing (SDM) based four mode erbium doped fiber amplifier (4M-EDFA) system is explored with 𝐿𝑃 01;980 𝑛𝑚 and 𝐿𝑃 01;1480 𝑛𝑚 pump power respectively. Main objective of this work is reduction in inherent differential modal gain (DMG) and differential spectral gain (DSG) between amplified signal modes 𝐿𝑃 𝑙𝑚 (𝐿𝑃 01 ; 𝐿𝑃 11 ; 𝐿𝑃 21 and 𝐿𝑃 02 ) while maintaining high modal gain. Differential modal noise figure (DMNF) and differential spectral noise figure (DSNF) parameters are introduced to quantify amplified spontaneous emission (ASE) impact in 4M-EDFA 980 𝑛𝑚; 1480 𝑛𝑚 system. A modified erbium ion inclusive overlap factor (𝜂 𝑠𝑝 ) and more decisive DMG related differential modal overlap factor (DMOF) and DSG related differential spectral overlap factor (DSOF) parameters are extracted using coupled mode equations. Calculations reveal 𝜂 𝑠𝑝 favourably high in 4M-EDFA 980 𝑛𝑚 than in 4M-EDFA 1480 𝑛𝑚 system. However, calculated DMOF and DSOF values are also unfavorably high in the former than in latter. Thereby, 4M-EDFA 1480 𝑛𝑚 is further explored for the simultaneous reduction in DMOF and DSOF values. Modified erbium doped profile (MEDP) 4M-EDFA 980 𝑛𝑚;1480 𝑛𝑚 system is simulated with erbium ion profile variants: uniform, 𝑁 𝑖𝑛𝑣 (𝑟) and 𝑁 𝑜𝑝𝑡 (𝑟) in the order of their improved performances. 𝑁 𝑖𝑛𝑣 (𝑟) is extracted from inverse sum of normalised signal intensities related function and subsequently unique 𝑁 𝑜𝑝𝑡 (𝑟) profile is proposed that satisfies reasonably differential modal gain equalization criteria. In 4M-EDFA 1480 𝑛𝑚 system at 1550 nm wavelength respective values with 𝑁 𝑖𝑛𝑣 (𝑟) and 𝑁 𝑜𝑝𝑡 (𝑟) for average modal gain is 24.05 dB, 24.17 dB; DMG is 2.4388 dB, 0.3624 dB and DMNF is 2.6862 dB, 0.3278 dB.

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“…The resulting values have been calculated using Eqs. ( 9) to (11). DMNF plot diagram and DSNF bar diagram are shown in Fig.…”

Section: M-𝐄𝐃𝐅𝐀 𝟏𝟒𝟖𝟎 𝐧𝐦 System Performance With 𝑵 𝒊𝒏𝒗 (𝒓) Profilementioning

confidence: 99%

Section: Modal Gain Equalization Routinementioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

See 2 more Smart Citations

Modified differential overlap factor and modal gain equalization criteria-based comparative analysis of 4M-EDFA 980;1480 nm towards identification of a unique erbium doping profile for the 4M-EDFA1480 nm system

Naik

Qazi

2023

J Comput Electron

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“…It, therefore, can be employed to generate random numbers at speedy rates by using high-speed detection and acquisition systems. However, modeling the amplified spontaneous emission in optical amplifiers, mainly in EDFAs, is still under research [11].…”

Section: Ase-based Qrng Is Integrated Into the High-speed Communicati...mentioning

confidence: 99%

Modeling of Amplified Spontaneous Emission Noise for Quantum Communication Applications

Udvary

2023

Preprint

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There is an increasing need for quantum communication applications, including true random numbers and quantum key distribution. The Amplified Spontaneous Emission (ASE) is a quantum physics process, which can play a significant role in both cases. A physical model for detecting and acquiring the ASE noise is developed. The photon probability is calculated, and the relationship with system parameters is presented. Experimental results quantitatively validate the physical model; the simulation results all significantly fit the corresponding experimental data well.

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2P01;41 mode specific 1480 nm pump powered 6M-optimum erbium doped profile (OEDP) based hybrid system for achieving low differential modal gain and low modal BER

Naik

Qazi

2023

Opt Quant Electron

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Evolution of amplified spontaneous emission and characterization of an optimized two-mode EDFA system obtained from an extended analytical model

Cited by 5 publications

References 14 publications

Modified differential overlap factor and modal gain equalization criteria-based comparative analysis of 4M-EDFA 980;1480 nm towards identification of a unique erbium doping profile for the 4M-EDFA1480 nm system

Modified differential overlap factor and modal gain equalization criteria-based comparative analysis of 4M-EDFA 980;1480 nm towards identification of a unique erbium doping profile for the 4M-EDFA1480 nm system

Modeling of Amplified Spontaneous Emission Noise for Quantum Communication Applications

2P01;41 mode specific 1480 nm pump powered 6M-optimum erbium doped profile (OEDP) based hybrid system for achieving low differential modal gain and low modal BER

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