Author
Anirban Roy Chowdhury
Bio: Anirban Roy Chowdhury is an academic researcher from University of Calcutta. The author has contributed to research in topics: Single-mode optical fiber & Aspect ratio. The author has an hindex of 1, co-authored 2 publications receiving 3 citations.
Topics: Single-mode optical fiber, Aspect ratio
Papers
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TL;DR: Based on the splice loss analysis between two perfectly aligned single mode step and trapezoidal index fibers, a simple empirical relation of power transmission coefficient in terms of normalised frequency and aspect ratio was proposed in this article.
3 citations
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TL;DR: In this paper, a simple and straight-forward method is presented for prediction of unknown aspect ratio of a given single mode trapezoidal index fiber, using splice loss technique in presence of lateral offset at the splice between them.
2 citations
Cited by
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TL;DR: In this article, the authors summarized the key technologies of a single mode fiber coupling to a laser diode and its direction of development in the future, and focused on optimizing the optical structure and the coupling parameters to improve the coupling efficiency and packaging performance.
16 citations
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TL;DR: In this article, the authors use the splice loss measurement technique in absence and presence of angular misalignment and report a simple and accurate method to predict the unknown aspect ratio of a supplied circular core trapezoidal index single mode fiber.
3 citations
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TL;DR: In this paper, a simple and straight-forward method is presented for prediction of unknown aspect ratio of a given single mode trapezoidal index fiber, using splice loss technique in presence of lateral offset at the splice between them.
2 citations
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TL;DR: In this paper , the effect of aspect ratio on splice loss between a pair of identical single mode trapezoidal index fibers in the presence of longitudinal and transverse misalignments is investigated.
Abstract: In this paper, an in-depth investigation is carried out on the effect of aspect ratio on splice loss between a pair of identical single mode trapezoidal index fibers in the presence of longitudinal and transverse misalignments. Splice loss is, interestingly, observed to get reduced, with the increase of aspect ratio and becomes minimum for unit aspect ratio for step profiles. Also, it is nearing minimum for near-step profiles. So, if there exists a little imperfection, say about ten percent, from step index profile, there will be no significant increase in the loss than that in step profile. This extended loss-tolerant feature in the step and near-step region revalidates the choice of the available step profile, technically used in communication. Thus, even for a digression in fabrication, system users should feel confident to use it. The physical significance of the results is justified from basic diffraction ideas. Finally, the entire study leads to a novel proposal of a longitudinal displacement sensor through simple and straight-forward empirical formulation to estimate the longitudinal misalignment from the knowledge of the splice loss of widely available step index fiber simply with air in the gap.