Search

Your search keyword '"Da Ros A"' showing total 4,754 results
Start Over Author "Da Ros A"
4,754 results on '"Da Ros A"'

1. Experimental Demonstration of End-to-End Optimization for Directly Modulated Laser-based IM/DD Systems

Author

Hernandez, Sergio, Peucheret, Christophe, Da Ros, Francesco, and Zibar, Darko

Subjects
Electrical Engineering and Systems Science - Signal Processing
Abstract

We experimentally demonstrate the joint optimization of transmitter and receiver parameters in directly modulated laser systems, showing superior performance compared to nonlinear receiver-only equalization while using fewer memory taps, less bandwidth, and lower radiofrequency power., Comment: submitted to the Optical Fiber Conference (OFC)

Published
2024

2. Theoretical Lower Bounds for the Oven Scheduling Problem

Author

Da Ros, Francesca, Lackner, Marie-Louise, and Musliu, Nysret

Subjects
Computer Science - Artificial Intelligence, Computer Science - Distributed, Parallel, and Cluster Computing, Computer Science - Data Structures and Algorithms
Abstract

The Oven Scheduling Problem (OSP) is an NP-hard real-world parallel batch scheduling problem arising in the semiconductor industry. The objective of the problem is to schedule a set of jobs on ovens while minimizing several factors, namely total oven runtime, job tardiness, and setup costs. At the same time, it must adhere to various constraints such as oven eligibility and availability, job release dates, setup times between batches, and oven capacity limitations. The key to obtaining efficient schedules is to process compatible jobs simultaneously in batches. In this paper, we develop theoretical, problem-specific lower bounds for the OSP that can be computed very quickly. We thoroughly examine these lower bounds, evaluating their quality and exploring their integration into existing solution methods. Specifically, we investigate their contribution to exact methods and a metaheuristic local search approach using simulated annealing. Moreover, these problem-specific lower bounds enable us to assess the solution quality for large instances for which exact methods often fail to provide tight lower bounds., Comment: arXiv admin note: text overlap with arXiv:2203.12517

Published
2024

3. End-to-End Learning of Transmitter and Receiver Filters in Bandwidth Limited Fiber Optic Communication Systems

Author

Nielsen, Søren Føns, Da Ros, Francesco, Schmidt, Mikkel N., and Zibar, Darko

Subjects
Electrical Engineering and Systems Science - Signal Processing
Abstract

This paper investigates the application of end-to-end (E2E) learning for joint optimization of pulse-shaper and receiver filter to reduce intersymbol interference (ISI) in bandwidth-limited communication systems. We investigate this in two numerical simulation models: 1) an additive white Gaussian noise (AWGN) channel with bandwidth limitation and 2) an intensity modulated direct detection (IM/DD) link employing an electro-absorption modulator. For both simulation models, we implement a wavelength division multiplexing (WDM) scheme to ensure that the learned filters adhere to the bandwidth constraints of the WDM channels. Our findings reveal that E2E learning greatly surpasses traditional single-sided transmitter pulse-shaper or receiver filter optimization methods, achieving significant performance gains in terms of symbol error rate with shorter filter lengths. These results suggest that E2E learning can decrease the complexity and enhance the performance of future high-speed optical communication systems., Comment: Under review

Published
2024

4. Resonant EO combs: Beyond the standard phase noise model of frequency combs

Author

Heebøll, Holger R., Sekhar, Pooja, Riebesehl, Jasper, Razumov, Aleksandr, Heyrich, Matt, Galili, Michael, Da Ros, Francesco, Diddams, Scott, and Zibar, Darko.

Subjects
Physics - Optics
Abstract

A resonant electro-optic (EO) frequency comb is generated through electro-optic modulation of laser light within an optical resonator. Compared to cavity-less EO combs generated in a single pass through a modulator, resonant EO combs can produce broader spectra with lower radio frequency (RF) power and offer a measure of noise filtering beyond the cavity's linewidth. Understanding, measuring, and suppressing the sources of phase noise in resonant EO combs is crucial for their applications in metrology, astrophotonics, optical clock generation, and fiber-optic communication. According to the standard phase noise model of frequency combs, only two variables - the common mode offset and repetition rate phase noise - are needed to fully describe the phase noise of comb lines. However, in this work we demonstrate analytically, numerically, and experimentally that this standard model breaks down for resonant EO combs at short timescales (high frequencies) and under certain comb parameters. Specifically, a third phase noise component emerges. Consequently, resonant EO combs feature qualitatively different phase noise from their cavity-less counterparts and may not exhibit the anticipated noise filtering. A more complete description of the deviations from the standard phase noise model is critical to accurately predict the performance of frequency combs. The description presented here paves the way for improved designs tailored to applications such as super-continuum generation and optical communication.

Published
2024

5. Phase Noise Characterization of Cr:ZnS Frequency Comb using Subspace Tracking

Author

Razumov, Aleksandr, Vasilyev, Sergey, Mirov, Mike, Riebesehl, Jasper, Heebøll, Holger R., Da Ros, Francesco, and Zibar, Darko

Subjects
Physics - Optics, Electrical Engineering and Systems Science - Signal Processing
Abstract

We present a comprehensive phase noise characterization of a mid-IR Cr:ZnS frequency comb. Despite their emergence as a platform for high-resolution dual-comb spectroscopy, detailed investigations into the phase noise of Cr:ZnS combs have been lacking. To address this, we use a recently proposed phase noise measurement technique that employs multi-heterodyne detection and subspace tracking. This allows for the measurement of the common mode, repetition-rate and high-order phase noise terms, and their corresponding scaling as a function of a comb-line number, using a single measurement set-up. We demonstrate that the comb under test is dominated by the common mode phase noise, while all the other phase noise terms are below the measurement noise floor (~ -120 dB rad^2/Hz), and are thereby not identifiable.

Published
2024

6. Micro-integrated crossed-beam optical dipole trap system with long-term alignment stability for mobile atomic quantum technologies

Author

Christ, Marc, Anton, Oliver, Zimmermann, Conrad, Henderson, Victoria A, Da Ros, Elisa, and Krutzik, Markus

Subjects
Physics - Atomic Physics, Physics - Applied Physics, Physics - Optics
Abstract

Quantum technologies extensively use laser light for state preparation, manipulation, and readout. For field applications, these systems must be robust and compact, driving the need for miniaturized and highly stable optical setups and system integration. In this work, we present a micro-integrated crossed-beam optical dipole trap setup, the $\mu$XODT, designed for trapping and cooling $^{87}\text{Rb}$. This fiber-coupled setup operates at $1064\,\text{nm}$ wavelength with up to $2.5\,\text{W}$ optical power and realizes a free-space crossed beam geometry. The $\mu$XODT precisely overlaps two focused beams ($w_0 \approx 33\,\mu\text{m}$) at their waists in a $45^\circ$ crossing angle, achieving a position difference $\leq 3.4\,\mu\text{m}$ and 0.998 power ratio between both beams with long-term stability. We describe the design and assembly process in detail, along with optical and thermal tests with temperatures of up to $65\,^\circ C$. The system's volume of $25\,\text{ml}$ represents a reduction of more than two orders of magnitude compared to typically used macroscopic setups, while demonstrating exceptional mechanical robustness and thermal stability. The $\mu$XODT is integrated with a $^{87}\text{Rb}$ 3D MOT setup, trapping $3 \times 10^5$ atoms from a laser-cooled atomic cloud, and has shown no signs of degradation after two years of operation.

Published
2024
Full Text
View/download PDF

7. Multi-task Photonic Reservoir Computing: Wavelength Division Multiplexing for Parallel Computing with a Silicon Microring Resonator

Author

Castro, Bernard J. Giron, Peucheret, Christophe, Zibar, Darko, and Da Ros, Francesco

Subjects
Computer Science - Neural and Evolutionary Computing, Computer Science - Artificial Intelligence, Computer Science - Machine Learning, Physics - Optics
Abstract

Nowadays, as the ever-increasing demand for more powerful computing resources continues, alternative advanced computing paradigms are under extensive investigation. Significant effort has been made to deviate from conventional Von Neumann architectures. In-memory computing has emerged in the field of electronics as a possible solution to the infamous bottleneck between memory and computing processors, which reduces the effective throughput of data. In photonics, novel schemes attempt to collocate the computing processor and memory in a single device. Photonics offers the flexibility of multiplexing streams of data not only spatially and in time, but also in frequency or, equivalently, in wavelength, which makes it highly suitable for parallel computing. Here, we numerically show the use of time and wavelength division multiplexing (WDM) to solve four independent tasks at the same time in a single photonic chip, serving as a proof of concept for our proposal. The system is a time-delay reservoir computing (TDRC) based on a microring resonator (MRR). The addressed tasks cover different applications: Time-series prediction, waveform signal classification, wireless channel equalization, and radar signal prediction. The system is also tested for simultaneous computing of up to 10 instances of the same task, exhibiting excellent performance. The footprint of the system is reduced by using time-division multiplexing of the nodes that act as the neurons of the studied neural network scheme. WDM is used for the parallelization of wavelength channels, each addressing a single task. By adjusting the input power and frequency of each optical channel, we can achieve levels of performance for each of the tasks that are comparable to those quoted in state-of-the-art reports focusing on single-task operation..., Comment: Main text: 11 figures, 3 tables. Supplementary material: 2 figures, 4 tables. The manuscript presented in this pre-print has been accepted for publication in Frontiers: Advanced Optical Technologies. The abstract is shorter than in the PDF file to comply with arXiv requirements

Published
2024
Full Text
View/download PDF

8. Memory Capacity Analysis of Time-delay Reservoir Computing Based on Silicon Microring Resonator Nonlinearities

Author

Castro, Bernard J. Giron, Peucheret, Christophe, and Da Ros, Francesco

Subjects
Computer Science - Neural and Evolutionary Computing, Computer Science - Artificial Intelligence, Physics - Optics
Abstract

Silicon microring resonators (MRRs) have shown strong potential in acting as the nonlinear nodes of photonic reservoir computing (RC) schemes. By using nonlinearities within a silicon MRR, such as the ones caused by free-carrier dispersion (FCD) and thermo-optic (TO) effects, it is possible to map the input data of the RC to a higher dimensional space. Furthermore, by adding an external waveguide between the through and add ports of the MRR, it is possible to implement a time-delay RC (TDRC) with enhanced memory. The input from the through port is fed back into the add port of the ring with the delay applied by the external waveguide effectively adding memory. In a TDRC, the nodes are multiplexed in time, and their respective time evolutions are detected at the drop port. The performance of MRR-based TDRC is highly dependent on the amount of nonlinearity in the MRR. The nonlinear effects, in turn, are dependent on the physical properties of the MRR as they determine the lifetime of the effects. Another factor to take into account is the stability of the MRR response, as strong time-domain discontinuities at the drop port are known to emerge from FCD nonlinearities due to self-pulsing (high nonlinear behaviour). However, quantifying the right amount of nonlinearity that RC needs for a certain task in order to achieve optimum performance is challenging. Therefore, further analysis is required to fully understand the nonlinear dynamics of this TDRC setup. Here, we quantify the nonlinear and linear memory capacity of the previously described microring-based TDRC scheme, as a function of the time constants of the generated carriers and the thermal of the TO effects. We analyze the properties of the TDRC dynamics that generate the parameter space, in terms of input signal power and frequency detuning range, over which conventional RC tasks can be satisfactorily performed by the TDRC scheme., Comment: 12 pages, 12 figures. Proceedings SPIE Europe 2024

Published
2024

9. End-to-End Learning of Pulse-Shaper and Receiver Filter in the Presence of Strong Intersymbol Interference

Author

Nielsen, Søren Føns, Da Ros, Francesco, Schmidt, Mikkel N., and Zibar, Darko

Subjects
Electrical Engineering and Systems Science - Signal Processing
Abstract

We numerically demonstrate that joint optimization of FIR based pulse-shaper and receiver filter results in an improved system performance, and shorter filter lengths (lower complexity), for 4-PAM 100 GBd IM/DD systems., Comment: 4 pages (3 article pages + 1 page for references) and 5 figures. Submitted to European Conference on Optical Communications (ECOC) 2024

Published
2024

10. End-to-end Optimization of Optical Communication Systems based on Directly Modulated Lasers

Author

F., Sergio Hernandez, Peucheret, Christophe, Da Ros, Francesco, and Zibar, Darko

Subjects
Electrical Engineering and Systems Science - Signal Processing
Abstract

The use of directly modulated lasers (DMLs) is attractive in low-power, cost-constrained short-reach optical links. However, their limited modulation bandwidth can induce waveform distortion, undermining their data throughput. Traditional distortion mitigation techniques have relied mainly on the separate training of transmitter-side pre-distortion and receiver-side equalization. This approach overlooks the potential gains obtained by simultaneous optimization of transmitter (constellation and pulse shaping) and receiver (equalization and symbol demapping). Moreover, in the context of DML operation, the choice of laser-driving configuration parameters such as the bias current and peak-to-peak modulation current has a significant impact on system performance. We propose a novel end-to-end optimization approach for DML systems, incorporating the learning of bias and peak-to-peak modulation current to the optimization of constellation points, pulse shaping and equalization. The simulation of the DML dynamics is based on the use of the laser rate equations at symbol rates between 15 and 25 Gbaud. The resulting output sequences from the rate equations are used to build a differentiable data-driven model, simplifying the calculation of gradients needed for end-to-end optimization. The proposed end-to-end approach is compared to 3 additional benchmark approaches: the uncompensated system without equalization, a receiver-side finite impulse response equalization approach and an end-to-end approach with learnable pulse shape and nonlinear Volterra equalization but fixed bias and peak-to-peak modulation current. The numerical simulations on the four approaches show that the joint optimization of bias, peak-to-peak current, constellation points, pulse shaping and equalization outperforms all other approaches throughout the tested symbol rates., Comment: submitted to journal of optical communications and networking (invited)

Published
2024
Full Text
View/download PDF

11. End-to-End Optimization of Directly Modulated Laser Links using Chirp-Aware Modeling

Author

F., Sergio Hernandez, Peucheret, Christophe, Da Ros, Francesco, and Zibar, Darko

Subjects
Electrical Engineering and Systems Science - Signal Processing
Abstract

The rate and reach of directly-modulated laser links is often limited by the interplay between chirp and fiber chromatic dispersion. We address this by optimizing the transmitter, receiver, bias and peak-to-peak current to the laser jointly. Our approach outperforms Volterra post-equalization at various symbol rates., Comment: submitted to european conference on optical communication

Published
2024

12. Prevention of foot ulcers recurrence in patients with diabetes: a systematic review and meta-analysis of randomized controlled trials for the development of the italian guidelines for the treatment of diabetic foot syndrome

Author

Da Ros, Roberto, Volpe, Antonio, Bordieri, Corrado, Tramonta, Rodolfo, Bernetti, Andrea, Scatena, Alessia, Monge, Luca, Ragghianti, Benedetta, Silverii, Antonio, Uccioli, Luigi, Vermigli, Cristiana, Monami, Matteo, and Miranda, Cesare

Published
2024
Full Text
View/download PDF

13. Thrombectomy in ischemic stroke patients with tandem occlusion in the posterior versus anterior circulation

Author

Cappellari, Manuel, Pracucci, Giovanni, Saia, Valentina, Mandruzzato, Nicolò, Valletta, Francesco, Sallustio, Fabrizio, Casetta, Ilaria, Fainardi, Enrico, Da Ros, Valerio, Diomedi, Marina, Capasso, Francesco, Nencini, Patrizia, Vallone, Stefano, Bigliardi, Guido, Tessitore, Agostino, La Spina, Paolino, Bracco, Sandra, Tassi, Rossana, Bergui, Mauro, Cerrato, Paolo, Ruggiero, Maria, Longoni, Marco, Castellan, Lucio, Malfatto, Laura, Saletti, Andrea, De Vito, Alessandro, Menozzi, Roberto, Scoditti, Umberto, Simonetti, Luigi, Zini, Andrea, Lafe, Elvis, Cavallini, Anna, Lazzarotti, Guido Andrea, Giannini, Nicola, Boghi, Andrea, Naldi, Andrea, Romano, Daniele, Napoletano, Rosa, Comai, Alessio, Franchini, Enrica, Cavasin, Nicola, Critelli, Adriana, Giorgianni, Andrea, Cariddi, Lucia Princiotta, Semeraro, Vittorio, Boero, Giovanni, Zimatore, Domenico Sergio, Petruzzellis, Marco, Biraschi, Francesco, Nicolini, Ettore, Pedicelli, Alessandro, Frisullo, Giovanni, Calzoni, Andrea, Tassinari, Tiziana, Gallesio, Ivan, Sepe, Federica, Filauri, Pietro, Sacco, Simona, Lozupone, Emilio, Rizzo, Annalisa, Besana, Michele, Giossi, Alessia, Pavia, Marco, Invernizzi, Paolo, Amistà, Pietro, Russo, Monia, Florio, Francesco, Inchingolo, Vincenzo, Filizzolo, Marco, Mannino, Marina, Mangiafico, Salvatore, and Toni, Danilo

Published
2024
Full Text
View/download PDF

14. Thermal Crosstalk Modelling and Compensation Methods for Programmable Photonic Integrated Circuits

Author

Teofilovic, Isidora, Cem, Ali, Sanchez-Jacome, David, Perez-Lopez, Daniel, and Da Ros, Francesco

Subjects
Computer Science - Emerging Technologies, Computer Science - Machine Learning, Physics - Optics
Abstract

Photonic integrated circuits play an important role in the field of optical computing, promising faster and more energy-efficient operations compared to their digital counterparts. This advantage stems from the inherent suitability of optical signals to carry out matrix multiplication. However, even deterministic phenomena such as thermal crosstalk make precise programming of photonic chips a challenging task. Here, we train and experimentally evaluate three models incorporating varying degrees of physics intuition to predict the effect of thermal crosstalk in different locations of an integrated programmable photonic mesh. We quantify the effect of thermal crosstalk by the resonance wavelength shift in the power spectrum of a microring resonator implemented in the chip, achieving modelling errors <0.5 pm. We experimentally validate the models through compensation of the crosstalk-induced wavelength shift. Finally, we evaluate the generalization capabilities of one of the models by employing it to predict and compensate for the effect of thermal crosstalk for parts of the chip it was not trained on, revealing root-mean-square-errors of <2.0 pm., Comment: 10 pages, 10 figures. The paper has been submitted to the Journal of Lightwave Technology, a special issue on Photonic Computing, as an invited paper. It is under review

Published
2024

15. Experimental Investigation of a Recurrent Optical Spectrum Slicing Receiver for Intensity Modulation/Direct Detection systems using Programmable Photonics

Author

Sozos, Kostas, Da Ros, Francesco, Yankov, Metodi P., Sarantoglou, George, Deligiannidis, Stavros, Mesaritakis, Charis, and Bogris, Adonis

Subjects
Physics - Optics, Electrical Engineering and Systems Science - Signal Processing
Abstract

In this paper, we experimentally validate our previous numerical works in recurrent optical spectrum slicing (ROSS) accelerators for dispersion compensation in high-speed IM/DD links. For this, we utilize recurrent filters implemented both through a waveshaper and by exploiting novel integrated programmable photonic platforms. Different recurrent configurations are tested. The ROSS accelerators exploit frequency processing through recurrent optical filter nodes in order to mitigate the power fading effect, which hinders the transmission distance and baudrate scalability of IM/DD systems. By equalizing even 80 km of 64 Gb/s PAM-4 transmission in C-band, we prove that our system can offer an appealing solution in highly dispersive channels., Comment: 8 pages, 6 figures

Published
2024

16. Current trends in antiplatelet strategies for emergent carotid stenting in acute tandem occlusions: a web-based, nationwide survey in the Italian neurovascular community

Author

Milazzo, Nicola, Da Ros, Valerio, Diomedi, Marina, Menozzi, Roberto, Pezzini, Alessandro, Ruggiero, Maria, Simonetti, Luigi, Zini, Andrea, Romano, Daniele Giuseppe, Napoletano, Rosa, Vallone, Stefano, Bigliardi, Guido, Plebani, Mauro, Cappellari, Manuel, Cristaudo, Concetto, Mangiafico, Salvatore, Toni, Danilo, and Consoli, Arturo

Published
2024
Full Text
View/download PDF

17. Association between procedural time and outcome in unsuccessful mechanical thrombectomy for acute ischemic stroke: analysis from the Italian Registry of Endovascular Treatment in Acute Stroke

Author

Sallustio, Fabrizio, Nicolini, Ettore, Saia, Valentina, Pracucci, Giovanni, Mascolo, Alfredo Paolo, Marrama, Federico, Gandini, Roberto, Da Ros, Valerio, Diomedi, Marina, Alemseged, Fana, Casetta, Ilaria, Fainardi, Enrico, Castellan, Lucio, Del Sette, Massimo, Limbucci, Nicola, Nencini, Patrizia, Bergui, Mauro, Cerrato, Paolo, Saletti, Andrea, De Vito, Alessandro, Cioni, Samuele, Tassi, Rossana, Simonetti, Luigi, Zini, Andrea, Ruggiero, Maria, Longoni, Marco, Tessitore, Agostino, Ferraù, Ludovica, Cavasin, Nicola, Critelli, Adriana, Vallone, Stefano, Bigliardi, Guido, Zimatore, Domenico Sergio, Petruzzellis, Marco, Boghi, Andrea, Naldi, Andrea, Comai, Alessio, Dall’Ora, Elisa, Sanfilippo, Giuseppina, Persico, Alessandra, Gallesio, Ivan, Sepe, Federica, Menozzi, Roberto, Pezzini, Alessandro, Besana, Michele, Giossi, Alessia, Sanna, Antioco, Tassinari, Tiziana, Burdi, Nicola, Boero, Giovanni, Augelli, Raffaele, Cappellari, Manuel, Cosottini, Mirco, Giannini, Nicola, Romano, Daniele G., Frauenfelder, Giulia, Nuzzi, Paolo Nunzio, Spinelli, Maria Carmela, Paladini, Adriana, Rizzo, Annalisa, Filizzolo, Marco, Mannino, Marina, Timpani, Carmine, De Santis, Federica, Carità, Giuseppe, Russo, Monia, Galvano, Gianluca, Sicurella, Luigi, Mangiafico, Salvatore, and Toni, Danilo

Published
2024
Full Text
View/download PDF

19. Review and experimental benchmarking of machine learning algorithms for efficient optimization of cold atom experiments

Author

Anton, Oliver, Henderson, Victoria A., Da Ros, Elisa, Sekulic, Ivan, Burger, Sven, Schneider, Philipp-Immanuel, and Krutzik, Markus

Subjects
Physics - Atomic Physics, Computer Science - Machine Learning
Abstract

The generation of cold atom clouds is a complex process which involves the optimization of noisy data in high dimensional parameter spaces. Optimization can be challenging both in and especially outside of the lab due to lack of time, expertise, or access for lengthy manual optimization. In recent years, it was demonstrated that machine learning offers a solution since it can optimize high dimensional problems quickly, without knowledge of the experiment itself. In this paper we present results showing the benchmarking of nine different optimization techniques and implementations, alongside their ability to optimize a Rubidium (Rb) cold atom experiment. The investigations are performed on a 3D $^{87}$Rb molasses with 10 and 18 adjustable parameters, respectively, where the atom number obtained by absorption imaging was chosen as the test problem. We further compare the best performing optimizers under different effective noise conditions by reducing the Signal-to-Noise ratio of the images via adapting the atomic vapor pressure in the 2D+ MOT and the detection laser frequency stability.

Published
2023
Full Text
View/download PDF

20. Wavelength-multiplexed Delayed Inputs for Memory Enhancement of Microring-based Reservoir Computing

Author

Castro, Bernard J. Giron, Peucheret, Christophe, and Da Ros, Francesco

Subjects
Computer Science - Neural and Evolutionary Computing, Computer Science - Emerging Technologies, Computer Science - Machine Learning
Abstract

We numerically demonstrate a silicon add-drop microring-based reservoir computing scheme that combines parallel delayed inputs and wavelength division multiplexing. The scheme solves memory-demanding tasks like time-series prediction with good performance without requiring external optical feedback., Comment: 2 pages, 2 figures. Submitted to Conference on Lasers and Electro-Optics (CLEO) 2024

Published
2023

21. BICM-compatible Rate Adaptive Geometric Constellation Shaping Using Optimized Many-to-one Labeling

Author

Yankov, Metodi Plamenov, Swain, Smaranika, Jovanovic, Ognjen, Zibar, Darko, and Da Ros, Francesco

Subjects
Electrical Engineering and Systems Science - Signal Processing, Computer Science - Information Theory, Mathematics - Optimization and Control, Physics - Optics
Abstract

In this paper, a rate adaptive geometric constellation shaping (GCS) scheme which is fully backward-compatible with existing state of the art bit-interleaved coded modulation (BICM) systems is proposed and experimentally demonstrated. The system relies on optimization of the positions of the quadrature amplitude modulation (QAM) points on the I/Q plane for maximized achievable information rate, while maintaining quantization and fiber nonlinear noise robustness. Furthermore, `dummy' bits are multiplexed with coded bits before mapping to symbols. Rate adaptivity is achieved by tuning the ratio of coded and `dummy' bits, while maintaining a fixed forward error-correction block and a fixed modulation format size. The points' positions and their labeling are optimized using automatic differentiation. The proposed GCS scheme is compared to a time-sharing hybrid (TH) QAM modulation and the now mainstream probabilistic amplitude shaping (PAS) scheme. The TH without shaping is outperformed for all studied data rates in a simulated linear channel by up to 0.7 dB. In a linear channel, PAS is shown to outperform the proposed GCS scheme, while similar performances are reported for PAS and the proposed GCS in a simulated nonlinear fiber channel. The GCS scheme is experimentally demonstrated in a multi-span recirculating loop coherent optical fiber transmission system with a total distance of up to 3000 km. Near-continuous zero-error flexible throughput is reported as a function of the transmission distance. Up to 1-2 spans of increased reach gains are achieved at the same net data rate w.r.t. conventional QAM. At a given distance, up to 0.79 bits/2D symbol of gain w.r.t. conventional QAM is achieved. In the experiment, similar performance to PAS is demonstrated., Comment: Submitted to Journal of Lightwave Technology as a special extended version of a 'top-scored' paper at the European Conference on Optical Communications (ECOC) 2023

Published
2023

22. Generation of electro-optic frequency combs with optimized flatness in a silicon ring resonator modulator

Author

Weckenmann, Erwan, Monteiro, Thyago, de Moura, Uiara Celine, Da Ros, Francesco, Bramerie, Laurent, Gay, Mathilde, Pérez-Galacho, Diego, Deniel, Lucas, Boeuf, Frédéric, Marris-Morini, Delphine, Zibar, Darko, and Peucheret, Christophe

Subjects
Physics - Optics, Physics - Applied Physics
Abstract

The flatness of electro-optic frequency combs (EOFCs) generated in a single silicon ring resonator modulator (RRM) is optimized by employing harmonic superposition of the radio-frequency driving signal. A differential evolution algorithm is employed in conjunction with a simplified model of the RRM for offline optimization of the amplitudes and phases of harmonic driving signals and the operating point of the RRM. The optimized driving signals are then applied to a silicon RRM. EOFCs containing 7 and 9 lines are synthesized with a power imbalance between the lines of 2.9 dB and 5.4 dB, respectively, compared to 9.4 dB for an optimized 5-line comb generated from a single sinusoidal driving signal., Comment: 4 pages, 5 figures, submitted to Optics Letters

Published
2023

23. Multi-Task Wavelength-Multiplexed Reservoir Computing Using a Silicon Microring Resonator

Author

Castro, Bernard J. Giron, Peucheret, Christophe, Zibar, Darko, and Da Ros, Francesco

Subjects
Computer Science - Neural and Evolutionary Computing, Computer Science - Emerging Technologies, Computer Science - Machine Learning, Physics - Optics
Abstract

Among the promising advantages of photonic computing over conventional computing architectures is the potential to increase computing efficiency through massive parallelism by using the many degrees of freedom provided by photonics. Here, we numerically demonstrate the simultaneous use of time and frequency (equivalently wavelength) multiplexing to solve three independent tasks at the same time on the same photonic circuit. In particular, we consider a microring-based time-delay reservoir computing (TDRC) scheme that simultaneously solves three tasks: Time-series prediction, classification, and wireless channel equalization. The scheme relies on time-division multiplexing to avoid the necessity of multiple physical nonlinear nodes, while the tasks are parallelized using wavelength division multiplexing (WDM). The input data modulated on each optical channel is mapped to a higher dimensional space by the nonlinear dynamics of the silicon microring cavity. The carrier wavelength and input power assigned to each optical channel have a high influence on the performance of its respective task. When all tasks operate under the same wavelength/power conditions, our results show that the computing nature of each task is the deciding factor of the level of performance achievable. However, it is possible to achieve good performance for all tasks simultaneously by optimizing the parameters of each optical channel. The variety of applications covered by the tasks shows the versatility of the proposed photonic TDRC scheme. Overall, this work provides insight into the potential of WDM-based schemes for improving the computing capabilities of reservoir computing schemes., Comment: 7 pages, 7 figures, Accepted for presentation at The International Joint Conference on Neural Networks (IJCNN), part of IEEE WCCI 2024

Published
2023

24. Effects of cavity nonlinearities and linear losses on silicon microring-based reservoir computing

Author

Castro, Bernard J. Giron, Peucheret, Christophe, Zibar, Darko, and Da Ros, Francesco

Subjects
Physics - Optics, Computer Science - Emerging Technologies, Computer Science - Machine Learning, Computer Science - Neural and Evolutionary Computing
Abstract

Microring resonators (MRRs) are promising devices for time-delay photonic reservoir computing, but the impact of the different physical effects taking place in the MRRs on the reservoir computing performance is yet to be fully understood. We numerically analyze the impact of linear losses as well as thermo-optic and free-carrier effects relaxation times on the prediction error of the time-series task NARMA-10. We demonstrate the existence of three regions, defined by the input power and the frequency detuning between the optical source and the microring resonance, that reveal the cavity transition from linear to nonlinear regimes. One of these regions offers very low error in time-series prediction under relatively low input power and number of nodes while the other regions either lack nonlinearity or become unstable. This study provides insight into the design of the MRR and the optimization of its physical properties for improving the prediction performance of time-delay reservoir computing., Comment: 20 pages, 11 figures, submitted to Optics Express (reviewed version)

Published
2023
Full Text
View/download PDF

25. Terrestrial Very-Long-Baseline Atom Interferometry: Workshop Summary

Author

Abend, Sven, Allard, Baptiste, Alonso, Iván, Antoniadis, John, Araujo, Henrique, Arduini, Gianluigi, Arnold, Aidan, Aßmann, Tobias, Augst, Nadja, Badurina, Leonardo, Balaz, Antun, Banks, Hannah, Barone, Michele, Barsanti, Michele, Bassi, Angelo, Battelier, Baptiste, Baynham, Charles, Quentin, Beaufils, Belic, Aleksandar, Beniwal, Ankit, Bernabeu, Jose, Bertinelli, Francesco, Bertoldi, Andrea, Biswas, Ikbal Ahamed, Blas, Diego, Boegel, Patrick, Bogojevic, Aleksandar, Böhm, Jonas, Böhringer, Samuel, Bongs, Kai, Bouyer, Philippe, Brand, Christian, Brimis, Apostolos, Buchmueller, Oliver, Cacciapuoti, Luigi, Calatroni, Sergio, Canuel, Benjamin, Caprini, Chiara, Caramete, Ana, Caramete, Laurentiu, Carlesso, Matteo, Carlton, John, Casariego, Mateo, Charmandaris, Vassilis, Chen, Yu-Ao, Chiofalo, Maria Luisa, Cimbri, Alessia, Coleman, Jonathon, Constantin, Florin Lucian, Contaldi, Carlo, Cui, Yanou, Da Ros, Elisa, Davies, Gavin, Rosendo, Esther del Pino, Deppner, Christian, Derevianko, Andrei, de Rham, Claudia, De Roeck, Albert, Derr, Daniel, Di Pumpo, Fabio, Djordjevic, Goran, Dobrich, Babette, Domokos, Peter, Dornan, Peter, Doser, Michael, Drougakis, Giannis, Dunningham, Jacob, Duspayev, Alisher, Easo, Sajan, Eby, Joshua, Efremov, Maxim, Ekelof, Tord, Elertas, Gedminas, Ellis, John, Evans, David, Fadeev, Pavel, Fanì, Mattia, Fassi, Farida, Fattori, Marco, Fayet, Pierre, Felea, Daniel, Feng, Jie, Friedrich, Alexander, Fuchs, Elina, Gaaloul, Naceur, Gao, Dongfeng, Gardner, Susan, Garraway, Barry, Gauguet, Alexandre, Gerlach, Sandra, Gersemann, Matthias, Gibson, Valerie, Giese, Enno, Giudice, Gian Francesco, Glasbrenner, Eric, Gündogan, Mustafa, Haehnelt, Martin G., Hakulinen, Timo, Hammerer, Klemens, Hanımeli, Ekim Taylan, Harte, Tiffany, Hawkins, Leonie, Hees, Aurelien, Heise, Jaret, Henderson, Victoria, Herrmann, Sven, Hird, Thomas, Hogan, Jason, Holst, Bodil, Holynski, Michael, Hussain, Kamran, Janson, Gregor, Jeglič, Peter, Jelezko, Fedor, Kagan, Michael, Kalliokoski, Matti, Kasevich, Mark, Kehagias, Alex, Kilian, Eva, Koley, Soumen, Konrad, Bernd, Kopp, Joachim, Kornakov, Georgy, Kovachy, Tim, Krutzik, Markus, Kumar, Mukesh, Kumar, Pradeep, Laemmerzahl, Claus, Landsberg, Greg, Langlois, Mehdi, Lanigan, Bryony, Lellouch, Samuel, Leone, Bruno, Lafitte, Christophe Le Poncin, Lewicki, Marek, Leykauf, Bastian, Lezeik, Ali, Lombriser, Lucas, López, Luis, Asamar, Elias López, Monjaraz, Cristian López, Luciano, Gaetano, Mohammed, Mohammed Mahmoud, Maleknejad, Azadeh, Markus, Krutzik, Marteau, Jacques, Massonnet, Didier, Mazumdar, Anupam, McCabe, Christopher, Meister, Matthias, Menu, Jonathan, Messineo, Giuseppe, Micalizio, Salvatore, Millington, Peter, Milosevic, Milan, Mitchell, Jeremiah, Montero, Mario, Morley, Gavin, Müller, Jürgen, Müstecaplıoğlu, Özgür, Ni, Wei-Tou, Noller, Johannes, Odžak, Senad, Oi, Daniel, Omar, Yasser, Pahl, Julia, Paling, Sean, Pandey, Saurabh, Pappas, George, Pareek, Vinay, Pasatembou, Elizabeth, Pelucchi, Emanuele, Santos, Franck Pereira dos, Piest, Baptist, Pikovski, Igor, Pilaftsis, Apostolos, Plunkett, Robert, Poggiani, Rosa, Prevedelli, Marco, Puputti, Julia, Veettil, Vishnupriya Puthiya, Quenby, John, Rafelski, Johann, Rajendran, Surjeet, Rasel, Ernst Maria, Sfar, Haifa Rejeb, Reynaud, Serge, Richaud, Andrea, Rodzinka, Tangui, Roura, Albert, Rudolph, Jan, Sabulsky, Dylan, Safronova, Marianna, Santamaria, Luigi, Schilling, Manuel, Schkolnik, Vladimir, Schleich, Wolfgang, Schlippert, Dennis, Schneider, Ulrich, Schreck, Florian, Schubert, Christian, Schwersenz, Nico, Semakin, Aleksei, Sergijenko, Olga, Shao, Lijing, Shipsey, Ian, Singh, Rajeev, Smerzi, Augusto, Sopuerta, Carlos F., Spallicci, Alessandro, Stefanescu, Petruta, Stergioulas, Nikolaos, Ströhle, Jannik, Struckmann, Christian, Tentindo, Silvia, Throssell, Henry, Tino, Guglielmo M., Tinsley, Jonathan, Mircea, Ovidiu Tintareanu, Tkalčec, Kimberly, Tolley, Andrew, Tornatore, Vincenza, Torres-Orjuela, Alejandro, Treutlein, Philipp, Trombettoni, Andrea, Tsai, Yu-Dai, Ufrecht, Christian, Ulmer, Stefan, Valuch, Daniel, Vaskonen, Ville, Aceves, Veronica Vazquez, Vitanov, Nikolay, Vogt, Christian, von Klitzing, Wolf, Vukics, András, Walser, Reinhold, Wang, Jin, Warburton, Niels, Webber-Date, Alexander, Wenzlawski, André, Werner, Michael, Williams, Jason, Windapssinger, Patrcik, Wolf, Peter, Wörner, Lisa, Xuereb, André, Yahia, Mohamed, Cruzeiro, Emmanuel Zambrini, Zarei, Moslem, Zhan, Mingsheng, Zhou, Lin, Zupan, Jure, and Zupanič, Erik

Subjects
High Energy Physics - Experiment, Astrophysics - Instrumentation and Methods for Astrophysics, General Relativity and Quantum Cosmology, High Energy Physics - Phenomenology, Physics - Atomic Physics
Abstract

This document presents a summary of the 2023 Terrestrial Very-Long-Baseline Atom Interferometry Workshop hosted by CERN. The workshop brought together experts from around the world to discuss the exciting developments in large-scale atom interferometer (AI) prototypes and their potential for detecting ultralight dark matter and gravitational waves. The primary objective of the workshop was to lay the groundwork for an international TVLBAI proto-collaboration. This collaboration aims to unite researchers from different institutions to strategize and secure funding for terrestrial large-scale AI projects. The ultimate goal is to create a roadmap detailing the design and technology choices for one or more km-scale detectors, which will be operational in the mid-2030s. The key sections of this report present the physics case and technical challenges, together with a comprehensive overview of the discussions at the workshop together with the main conclusions., Comment: Summary of the Terrestrial Very-Long-Baseline Atom Interferometry Workshop held at CERN: https://indico.cern.ch/event/1208783/

Published
2023

29. MR protocol optimization for hepatobiliary phase imaging with Gd-EOB-DTPA at 1.5 T: comparison between breath-hold T1-weighted and high-resolution navigated 3D T1-weighted sequences

Author

Eliseo Picchi, Valentina Ferrazzoli, Valeria Liberto, Luca Toti, Valerio Da Ros, Noemi Pucci, Silvia Minosse, Francesco Garaci, and Francesca Di Giuliano

Subjects
Magnetic resonance, Gadoxetic acid, High-resolution navigated 3D, Hepatocarcinoma, Medical physics. Medical radiology. Nuclear medicine, R895-920
Abstract

Abstract Background This study aims to compare the efficacy of navigator-gated three-dimensional T1-weighted gradient-echo sequences (NAV) with standard breath-hold T1-weighted gradient-echo sequences (BH) for the detection of hepatocellular carcinoma (HCC) nodules in patients with chronic viral hepatitis undergoing magnetic resonance imaging (MRI) with gadolinium ethoxybenzyl-diethylenetriaminepentaacetic acid (Gd-EOB-DTPA). Methods From May 2022 to November 2023, fifty-eight patients were included in this retrospective study. Eligible patients had chronic viral hepatitis and at least one hepatic nodule of one cm or larger detected by ultrasound. Each patients underwent MRI that included NAV and BH sequences obtained by using various flip angles (FA) ranging from 10° to 40° post Gd-EOB-DTPA administration. Three independent radiologists performed qualitative analysis evaluating the clearness of the image, the presence of artifacts, the diagnostic reliability of the sequences, and the contrast-to-noise ratio (CNR) between lesions and liver, as well as between liver and spleen. Results NAV sequences at a FA of 40° have demonstrated the highest agreement across all quality parameters (p

Published
2024
Full Text
View/download PDF

30. Imaging findings of a case of peliosis hepatis mimicking malignancies

Author

Noemi Pucci, MD, Flavia Chirico, MD, Maria Pitaro, MD, Eliseo Picchi, PhD, MD, Valerio Da Ros, PhD, MD, Valentina Ferrazzoli, MD, Luca Toti, PhD, MD, Silvia Minosse, PhD, Francesco Garaci, PhD, MD, and Francesca Di Giuliano, PhD, MD

Subjects
Peliosis hepatis, MRI, CT, Hepatic lesion, Hepatobiliary-specific contrast agent, Medical physics. Medical radiology. Nuclear medicine, R895-920
Abstract

Peliosis hepatis (PH) is a rare benign pathological entity characterised by dilatation of the hepatic sinusoids. It has been reported to be associated with infection or malignancy, but the aetiology of PH remains unknown. Distinguishing PH from other malignancies can be difficult on imaging studies. This case report describes the incidental finding of PH in a patient undergoing a cardiac computed tomography (CT) scan at our institution.The CT scan incidentally revealed areas of altered density in the liver on the abdominal scans, requiring detailed liver diagnostic studies for better characterisation.

Published
2024
Full Text
View/download PDF

31. Differentiable Machine Learning-Based Modeling for Directly-Modulated Lasers

Author

Hernandez, Sergio, Jovanovic, Ognjen, Peucheret, Christophe, Da Ros, Francesco, and Zibar, Darko

Subjects
Electrical Engineering and Systems Science - Signal Processing, Computer Science - Information Theory
Abstract

End-to-end learning has become a popular method for joint transmitter and receiver optimization in optical communication systems. Such approach may require a differentiable channel model, thus hindering the optimization of links based on directly modulated lasers (DMLs). This is due to the DML behavior in the large-signal regime, for which no analytical solution is available. In this paper, this problem is addressed by developing and comparing differentiable machine learning-based surrogate models. The models are quantitatively assessed in terms of root mean square error and training/testing time. Once the models are trained, the surrogates are then tested in a numerical equalization setup, resembling a practical end-to-end scenario. Based on the numerical investigation conducted, the convolutional attention transformer is shown to outperform the other models considered., Comment: final version to Photonics Technology Letters (02/01/2024)

Published
2023
Full Text
View/download PDF

32. A comparison between black-, grey- and white-box modeling for the bidirectional Raman amplifier optimization

Author

Yankov, Metodi P., Soltani, Mehran, Carena, Andrea, Zibar, Darko, and Da Ros, Francesco

Subjects
Physics - Applied Physics, Computer Science - Computational Engineering, Finance, and Science, Computer Science - Machine Learning, Physics - Optics
Abstract

Designing and optimizing optical amplifiers to maximize system performance is becoming increasingly important as optical communication systems strive to increase throughput. Offline optimization of optical amplifiers relies on models ranging from white-box models deeply rooted in physics to black-box data-driven and physics-agnostic models. Here, we compare the capabilities of white-, grey- and black-box models on the challenging test case of optimizing a bidirectional distributed Raman amplifier to achieve a target frequency-distance signal power profile. We show that any of the studied methods can achieve similar frequency and distance flatness of between 1 and 3.6 dB (depending on the definition of flatness) over the C-band in an 80-km span. Then, we discuss the models' applicability, advantages, and drawbacks based on the target application scenario, in particular in terms of flexibility, optimization speed, and access to training data.

Published
2023

33. Low-complexity Samples versus Symbols-based Neural Network Receiver for Channel Equalization

Author

Osadchuk, Yevhenii, Jovanovic, Ognjen, Ranzini, Stenio M., Dischler, Roman, Aref, Vahid, Zibar, Darko, and Da Ros, Francesco

Subjects
Electrical Engineering and Systems Science - Signal Processing
Abstract

Low-complexity neural networks (NNs) have successfully been applied for digital signal processing (DSP) in short-reach intensity-modulated directly detected optical links, where chromatic dispersion-induced impairments significantly limit the transmission distance. The NN-based equalizers are usually optimized independently from other DSP components, such as matched filtering. This approach may result in lower equalization performance. Alternatively, optimizing a NN equalizer to perform functionalities of multiple DSP blocks may increase transmission reach while keeping the complexity low. In this work, we propose a low-complexity NN that performs samples-to-symbol equalization, meaning that the NN-based equalizer includes match filtering and downsampling. We compare it to a samples-to-sample equalization approach followed by match filtering and downsampling in terms of performance and computational complexity. Both approaches are evaluated using three different types of NNs combined with optical preprocessing. We numerically and experimentally show that the proposed samples-to-symbol equalization approach applied for 32 GBd on-off keying (OOK) signals outperforms the samples-domain alternative keeping the computational complexity low. Additionally, the different types of NN-based equalizers are compared in terms of performance with respect to computational complexity.

Published
2023

34. Addressing Data Scarcity in Optical Matrix Multiplier Modeling Using Transfer Learning

Author

Cem, Ali, Jovanovic, Ognjen, Yan, Siqi, Ding, Yunhong, Zibar, Darko, and Da Ros, Francesco

Subjects
Computer Science - Machine Learning, Physics - Optics
Abstract

We present and experimentally evaluate using transfer learning to address experimental data scarcity when training neural network (NN) models for Mach-Zehnder interferometer mesh-based optical matrix multipliers. Our approach involves pre-training the model using synthetic data generated from a less accurate analytical model and fine-tuning with experimental data. Our investigation demonstrates that this method yields significant reductions in modeling errors compared to using an analytical model, or a standalone NN model when training data is limited. Utilizing regularization techniques and ensemble averaging, we achieve < 1 dB root-mean-square error on the matrix weights implemented by a 3x3 photonic chip while using only 25% of the available data.

Published
2023

35. Rate Adaptive Geometric Constellation Shaping Using Autoencoders and Many-To-One Mapping

Author

Yankov, Metodi P., Jovanovic, Ognjen, Zibar, Darko, and Da Ros, Francesco

Subjects
Electrical Engineering and Systems Science - Signal Processing
Abstract

A many-to-one mapping geometric constellation shaping scheme is proposed with a fixed modulation format, fixed FEC engine and rate adaptation with an arbitrarily small step. An autoencoder is used to optimize the labelings and constellation points' positions.

Published
2023

36. Impact of Free-carrier Nonlinearities on Silicon Microring-based Reservoir Computing

Author

Castro, Bernard J. Giron, Peucheret, Christophe, Zibar, Darko, and Da Ros, Francesco

Subjects
Computer Science - Emerging Technologies, Computer Science - Machine Learning, Computer Science - Neural and Evolutionary Computing
Abstract

We quantify the impact of thermo-optic and free-carrier effects on time-delay reservoir computing using a silicon microring resonator. We identify pump power and frequency detuning ranges with NMSE less than 0.05 for the NARMA-10 task depending on the time constants of the two considered effects., Comment: 2 pages, 2 figures. Submitted to IEEE Photonics Conference 2023

Published
2023

38. Midterm follow-up after embolization of intracranial aneurysms proximal to the circle of Willis with the Silk Vista flow diverter: the I-MAMA registry

Author

Da Ros, Valerio, Sabuzi, Federico, D’Argento, Francesco, Pedicelli, Alessandro, Gavrilovic, Vladimir, Sponza, Massimo, Di Giuliano, Francesca, Biraschi, Francesco, Iacobucci, Marta, Grillea, Giovanni, Bartolo, Andrea, Patassini, Mirko, Remida, Paolo, Quilici, Luca, Faragò, Giuseppe, Varrassi, Marco, Cavasin, Nicola, Arpesani, Roberto, Giordano, Aldo Victor, Umana, Giuseppe, Garaci, Francesco, and Floris, Roberto

Published
2024
Full Text
View/download PDF

40. Effect of a multidisciplinary team approach in patients with diabetic foot ulcers on major adverse limb events (MALEs): systematic review and meta-analysis for the development of the Italian guidelines for the treatment of diabetic foot syndrome

Author

Meloni, Marco, Giurato, Laura, Monge, Luca, Miranda, Cesare, Scatena, Alessia, Ragghianti, Benedetta, Silverii, Giovanni Antonio, Vermigli, Cristiana, De Cassai, Alessandro, Volpe, Antonio, Tramonta, Rodolfo, Medea, Gerardo, Bordieri, Corrado, Falcone, Marco, Stefanon, Laura, Bernetti, Andrea, Cappella, Cristina, Gargiulo, Mauro, Lorenzoni, Valentina, Scevola, Germano, Stabile, Eugenio, Da Ros, Roberto, Murdolo, Giuseppe, Bianchini, Eleonora, Gaggia, Francesco, Gauna, Carlotta, Romeo, Francesco, Apicella, Matteo, Mantuano, Michele, Monami, Matteo, and Uccioli, Luigi

Published
2024
Full Text
View/download PDF

41. Subspace tracking for independent phase noise source separation in frequency combs

Author

Razumov, Aleksandr, Heebøll, Holger R., Dummont, Mario, Terra, Osama, Dong, Bozhang, Riebesehl, Jasper, Varming, Poul, Pedersen, Jens E., Da Ros, Francesco, Bowers, John E., and Zibar, Darko

Subjects
Physics - Optics, Electrical Engineering and Systems Science - Signal Processing
Abstract

Advanced digital signal processing techniques in combination with ultra-wideband balanced coherent detection have enabled a new generation of ultra-high speed fiber-optic communication systems, by moving most of the processing functionalities into digital domain. In this paper, we demonstrate how digital signal processing techniques, in combination with ultra-wideband balanced coherent detection can enable optical frequency comb noise characterization techniques with novel functionalities. We propose a measurement method based on subspace tracking, in combination with multi-heterodyne coherent detection, for independent phase noise sources identification, separation and measurement. Our proposed measurement technique offers several benefits. First, it enables the separation of the total phase noise associated with a particular comb-line or -lines into multiple independent phase noise terms associated with different noise sources. Second, it facilitates the determination of the scaling of each independent phase noise term with comb-line number. Our measurement technique can be used to: identify the most dominant source of phase noise; gain a better understanding of the physics behind the phase noise accumulation process; and confirm, already existing, and enable better phase noise models. In general, our measurement technique provides new insights into noise behavior of optical frequency combs.

Published
2023

42. Data-Driven Modeling of Directly-Modulated Lasers

Author

Fernandez, Sergio Hernandez, Peucheret, Christophe, Jovanovic, Ognjen, Da Ros, Francesco, and Zibar, Darko

Subjects
Electrical Engineering and Systems Science - Signal Processing, Computer Science - Information Theory, Physics - Optics
Abstract

The end-to-end optimization of links based on directly-modulated lasers may require an analytically differentiable channel. We overcome this problem by developing and comparing differentiable laser models based on machine learning techniques., Comment: 4 pages, 6 figures, submitted to european conference on optical communcations 2023

Published
2023

43. QUICK$^3$ -- Design of a satellite-based quantum light source for quantum communication and extended physical theory tests in space

Author

Ahmadi, Najme, Schwertfeger, Sven, Werner, Philipp, Wiese, Lukas, Lester, Joseph, Da Ros, Elisa, Krause, Josefine, Ritter, Sebastian, Abasifard, Mostafa, Cholsuk, Chanaprom, Krämer, Ria G., Atzeni, Simone, Gündoğan, Mustafa, Sachidananda, Subash, Pardo, Daniel, Nolte, Stefan, Lohrmann, Alexander, Ling, Alexander, Bartholomäus, Julian, Corrielli, Giacomo, Krutzik, Markus, and Vogl, Tobias

Subjects
Quantum Physics, Condensed Matter - Mesoscale and Nanoscale Physics, Physics - Applied Physics, Physics - Optics, Physics - Space Physics
Abstract

Modern quantum technologies have matured such that they can now be used in space applications, e.g., long-distance quantum communication. Here, we present the design of a compact true single photon source that can enhance the secure data rates in satellite-based quantum key distribution scenarios compared to conventional laser-based light sources. Our quantum light source is a fluorescent color center in hexagonal boron nitride. The emitter is off-resonantly excited by a diode laser and directly coupled to an integrated photonic processor that routes the photons to different experiments performed directly on-chip: (i) the characterization of the single photon source and (ii) testing a fundamental postulate of quantum mechanics, namely the relation of the probability density and the wave function (known as Born's rule). The described payload is currently being integrated into a 3U CubeSat and scheduled for launch in 2024 into low Earth orbit. We can therefore evaluate the feasibility of true single photon sources and reconfigurable photonic circuits in space. This provides a promising route toward a high-speed quantum network.

Published
2023
Full Text
View/download PDF

44. Tutela jurisdicional de pessoas em situação de vulnerabilidades decorrentes de desastres climáticos

Author

Patrick Lucca Da Ros

Subjects
Emergência climática, Desastres climáticos, Direitos humanos, Tutela jurisdicional diferenciada, Law in general. Comparative and uniform law. Jurisprudence, K1-7720
Abstract

Este artigo se propõe a abordar a atual situação de emergência climática, com a tendência de incremento em frequência de ocorrência de eventos meteorológicos extremos. A metodologia adotada é a revisão bibliográfica e análise de dados científicos, para averiguar as consequências desse fenômeno em relação as populações atingidas por tragédias climáticas, as quais em muitos casos sofrerão múltiplas vulnerabilidades em seus direitos humanos. A essas pessoas se deve destinar olhar diferenciado, o que repercute na necessidade de normas e políticas públicas protetivas e, no âmbito judicial, de interpretação de normas nacionais e internacionais que considerem essa situação. Entende-se que uma atuação judicial sensível a essas vicissitudes é uma forma de se alcançar os valores previstos nos ordenamentos internacional e nacional.

Published
2024
Full Text
View/download PDF

45. Multi-task photonic reservoir computing: wavelength division multiplexing for parallel computing with a silicon microring resonator

Author

Bernard J. Giron Castro, Christophe Peucheret, Darko Zibar, and Francesco Da Ros

Subjects
reservoir computing, parallel computing, microring resonator, neuromorphic photonics, wavelength division multiplexing, Technology
Abstract

Nowadays, as the ever-increasing demand for more powerful computing resources continues, alternative advanced computing paradigms are under extensive investigation. Significant effort has been made to deviate from conventional Von Neumann architectures. In-memory computing has emerged in the field of electronics as a possible solution to the infamous bottleneck between memory and computing processors, which reduces the effective throughput of data. In photonics, novel schemes attempt to collocate the computing processor and memory in a single device. Photonics offers the flexibility of multiplexing streams of data not only spatially and in time, but also in frequency or, equivalently, in wavelength, which makes it highly suitable for parallel computing. Here, we numerically show the use of time and wavelength division multiplexing (WDM) to solve four independent tasks at the same time in a single photonic chip, serving as a proof of concept for our proposal. The system is a time-delay reservoir computing (TDRC) based on a microring resonator (MRR). The addressed tasks cover different applications: Time-series prediction, waveform signal classification, wireless channel equalization, and radar signal prediction. The system is also tested for simultaneous computing of up to 10 instances of the same task, exhibiting excellent performance. The footprint of the system is reduced by using time-division multiplexing of the nodes that act as the neurons of the studied neural network scheme. WDM is used for the parallelization of wavelength channels, each addressing a single task. By adjusting the input power and frequency of each optical channel, we can achieve levels of performance for each of the tasks that are comparable to those quoted in state-of-the-art reports focusing on single-task operation. We also quantify the memory capacity and nonlinearity of each parallelized RC and relate these properties to the performance of each task. Finally, we provide insight into the impact of the feedback mechanism on the performance of the system.

Published
2024
Full Text
View/download PDF

Catalog

Books, media, physical & digital resources
See catalog results