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Main Authors: Bazzani, Elisa, Guglielmi, Anna Valeria, Corvaja, Roberto, Laurenti, Nicola, Romanato, Filippo, Ruffato, Gianluca, Vogliardi, Andrea, Vedovato, Francesco, Vallone, Giuseppe, Vangelista, Lorenzo, Villoresi, Paolo
Format: Preprint
Published: 2023
Subjects:
Online Access:https://arxiv.org/abs/2308.01900
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author Bazzani, Elisa
Guglielmi, Anna Valeria
Corvaja, Roberto
Laurenti, Nicola
Romanato, Filippo
Ruffato, Gianluca
Vogliardi, Andrea
Vedovato, Francesco
Vallone, Giuseppe
Vangelista, Lorenzo
Villoresi, Paolo
author_facet Bazzani, Elisa
Guglielmi, Anna Valeria
Corvaja, Roberto
Laurenti, Nicola
Romanato, Filippo
Ruffato, Gianluca
Vogliardi, Andrea
Vedovato, Francesco
Vallone, Giuseppe
Vangelista, Lorenzo
Villoresi, Paolo
contents This work aims at investigating the optical transmission system needed for such lightweight sail, taking into account the physical constraints of such unprecedented link and focusing on the optimal scheme for the optical signal emission. In particular, the optical signal is distributed to several emitters on the sail. The light diffraction resulting from the pattern of the emitters acting coherently determines the characteristics of the whole beam transmitted by the sail and of the received signal on the Earth. The performance of the digital communication system using pulse position modulation (PPM) can be assessed and channel coding schemes are proposed. We are using the paradigm for which the entire sail communication system is described as a Tree-of-light: the detectors, CPU, memory and laser transmitter are the central unit, representing the trunk of the tree. The branches of the tree are the waveguides, directed to the sail surface. By means of multimode splitters, the signal is further distributed via the petioles to the emitters, the leaves, realized by grating couplers (GCs), on which this work is more focused.
format Preprint
id arxiv_https___arxiv_org_abs_2308_01900
institution arXiv
publishDate 2023
record_format arxiv
spellingShingle The Tree of Light as interstellar optical transmitter system
Bazzani, Elisa
Guglielmi, Anna Valeria
Corvaja, Roberto
Laurenti, Nicola
Romanato, Filippo
Ruffato, Gianluca
Vogliardi, Andrea
Vedovato, Francesco
Vallone, Giuseppe
Vangelista, Lorenzo
Villoresi, Paolo
Instrumentation and Methods for Astrophysics
This work aims at investigating the optical transmission system needed for such lightweight sail, taking into account the physical constraints of such unprecedented link and focusing on the optimal scheme for the optical signal emission. In particular, the optical signal is distributed to several emitters on the sail. The light diffraction resulting from the pattern of the emitters acting coherently determines the characteristics of the whole beam transmitted by the sail and of the received signal on the Earth. The performance of the digital communication system using pulse position modulation (PPM) can be assessed and channel coding schemes are proposed. We are using the paradigm for which the entire sail communication system is described as a Tree-of-light: the detectors, CPU, memory and laser transmitter are the central unit, representing the trunk of the tree. The branches of the tree are the waveguides, directed to the sail surface. By means of multimode splitters, the signal is further distributed via the petioles to the emitters, the leaves, realized by grating couplers (GCs), on which this work is more focused.
title The Tree of Light as interstellar optical transmitter system
topic Instrumentation and Methods for Astrophysics
url https://arxiv.org/abs/2308.01900