Counting distributions and error probabilities for optical receivers incorporating superlattice avalanche photodiodes

Teich, Malvin C.; Matsuo, Kuniaki; Saleh, Bahaa E. A.

doi:10.1109/t-ed.1986.22697

Cited by 22 publications

(5 citation statements)

References 51 publications

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“…The performance of the O-IDMA syatem may be evaluated on the basis of the parameter BER (bit error rate). [13] The Optocal-IDMA (O-IDMA) system has been simulated using MATLAB using input signal shape Gaussian pulse as well as Solitons with varying transmitting distance. Figure 4 shows the simulated result of the O-IDMA using the input signal as Gaussian pulse and Solitons with varying distance.…”

Section: Results a N D Conferencementioning

confidence: 99%

Long Distance Transmission in Optical-IDMA System

Sriwas,

Chandra,

Kumar

2023

SMSJ

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In optical fiber communication system the transmission of signal through optical fiber in long distance with less repeaters can reduce the system’s cost and maintain the signal quality. For long-distance transmission Nonlinear effect and dispersion increases with distance and degrade the signal quality of the optical-interleave Division multiple Access (O-IDMA) system. To reduce Nonlinear effect and dispersion Gaussian pulse has been replaced by Solitons and evaluate the performance. MATLAB has been opted to simulate the Optical fiber channel based IDMA system. Simulation outcomes shows that Solitons may be better option in place of Gaussian pulse for long distance transmission.

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Section: Results a N D Conferencementioning

confidence: 99%

Long Distance Transmission in Optical-IDMA System

Sriwas,

Chandra,

Kumar

2023

SMSJ

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“…Conventional APDs are defined as APDs in which multiplication occurs only within the depletion region of a simple p-i-n bulk semiconductor diode. Additionally, the noise properties of superlattice APDs have been examined by Teich et al [9,14,20], Matsuo et al [21], Kahraman et al [22], Hakim et al [23], Chakrabarti et al [24], Fyath et al [25,26] Van der Ziel et al [27], and Rajamani et al [28]. Superlattice APDs (SAPDs) [29] are comprised of alternating layers of variable bandgap semiconductors.…”

Section: Noise Properties Of Apdsmentioning

confidence: 99%

Invited Review: Superlattice and multiquantum well avalanche photodetectors: physics, concepts and performance

Brennan

Haralson

2000

Superlattices and Microstructures

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“…Teich et al [43] have calculated the bit error rate (BER) for a staircase APD receiver, with k s = 0, neglecting the dark current, using the electron counting distribution, and assuming maximum-likelihood detection. They showed that such a receiver will exhibit improved sensitivity compared with a conventional APD receiver with identical gain and circuit noise.…”

Section: Effect Of Dark Current On Receiver Sensitivitymentioning

confidence: 99%

Analysis of the influence of dark current on the performance of optical receivers employing superlattice APDs

O’Reilly

Fyath

1988

IEE Proc. J Optoelectron. UK

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Formulas are derived for the effective mean value and effective excess-noise factor associated with dark-current induced holeelectron pairs and these are used to study the influence of dark current, and residual hole ionisation on device and receiver performance for superlattice avalanche photodiodes (APDs). The analyses should provide useful guidelines for the design of high performance superlattice APDs and receivers.

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Counting distributions and error probabilities for optical receivers incorporating superlattice avalanche photodiodes

Cited by 22 publications

References 51 publications

Long Distance Transmission in Optical-IDMA System

Long Distance Transmission in Optical-IDMA System

Invited Review: Superlattice and multiquantum well avalanche photodetectors: physics, concepts and performance

Analysis of the influence of dark current on the performance of optical receivers employing superlattice APDs

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