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1. An Orbital Basis Set for Double Photoionization of Atoms and Molecules.

Author

Bello, Roger, Yip, Frank, Streeter, Zachary, Lucchese, Robert, and Mccurdy, Clyde

Abstract

The ab initio theoretical treatment of one-photon double photoionization processes has been limited to atoms and diatomic molecules by the challenges posed by large grid-based representations of the double ionized continuum wave function. To provide a path for extensions to polyatomics, an energy-adapted orbital basis approach is demonstrated that reduces the dimensions of such representations and simultaneously allows larger time steps in time-dependent computational descriptions of double ionization. Additionally, an algorithm that exploits the diagonal nature of the two-electron integrals in the grid basis and dramatically accelerates the transformation between grid and orbital representations is presented. Excellent agreement between the present results and benchmark theoretical calculations is found for H- and Be atoms, as well as the hydrogen molecule, including for the triply differential cross sections that relate the angular distribution and energy sharing of all of the particles in the molecular frame.

Published
2024

2. Isotope-Selective Strong Field Ionization of Semi-Heavy Water

Author

Howard, Andrew J., Britton, M., Streeter, Zachary L., Cheng, Chuan, Lucchese, Robert R., McCurdy, C. William, and Bucksbaum, Philip H.

Subjects
Physics - Chemical Physics, Physics - Atomic Physics, Physics - Optics, Quantum Physics
Abstract

Semi-heavy water (HOD) is one of the simplest molecules in which the bonds are labelled by isotope. We demonstrate that a pair of intense few-femtosecond infrared laser pulses can be used to selectively tunnel ionize along one of the two bonds. The first pulse doubly ionizes HOD, inducing rapid bond stretching and unbending. Femtoseconds later, the second pulse arrives and further ionization is selectively enhanced along the OH bond. These conclusions arise from 3D time-resolved measurements of H$^+$, D$^+$, and O$^+$ momenta following triple ionization., Comment: Supplemental Materials included at the end of the main text

Published
2024

3. Early Exit Strategies for Approximate k-NN Search in Dense Retrieval

Author

Busolin, Francesco, Lucchese, Claudio, Nardini, Franco Maria, Orlando, Salvatore, Perego, Raffaele, and Trani, Salvatore

Subjects
Computer Science - Information Retrieval
Abstract

Learned dense representations are a popular family of techniques for encoding queries and documents using high-dimensional embeddings, which enable retrieval by performing approximate k nearest-neighbors search (A-kNN). A popular technique for making A-kNN search efficient is based on a two-level index, where the embeddings of documents are clustered offline and, at query processing, a fixed number N of clusters closest to the query is visited exhaustively to compute the result set. In this paper, we build upon state-of-the-art for early exit A-kNN and propose an unsupervised method based on the notion of patience, which can reach competitive effectiveness with large efficiency gains. Moreover, we discuss a cascade approach where we first identify queries that find their nearest neighbor within the closest t << N clusters, and then we decide how many more to visit based on our patience approach or other state-of-the-art strategies. Reproducible experiments employing state-of-the-art dense retrieval models and publicly available resources show that our techniques improve the A-kNN efficiency with up to 5x speedups while achieving negligible effectiveness losses. All the code used is available at https://github.com/francescobusolin/faiss_pEE, Comment: 6 pages, published at CIKM 2024

Published
2024
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4. Tracking ultrafast non-adiabatic dissociation dynamics of the deuterated water dication molecule

Author

Iskandar, W, Rescigno, TN, Orel, AE, Larsen, KA, Severt, T, Streeter, ZL, Jochim, B, Griffin, B, Call, D, Davis, V, McCurdy, CW, Lucchese, RR, Williams, JB, Ben-Itzhak, I, Slaughter, DS, and Weber, T

Subjects
Physical Sciences, Chemical Sciences, Atomic, Molecular and Optical Physics, Physical Chemistry, Affordable and Clean Energy, Engineering, Chemical Physics, Chemical sciences, Physical sciences
Abstract

We applied reaction microscopy to elucidate fast non-adiabatic dissociation dynamics of deuterated water molecules after direct photo-double ionization at 61 eV with synchrotron radiation. For the very rare D+ + O+ + D breakup channel, the particle momenta, angular, and energy distributions of electrons and ions, measured in coincidence, reveal distinct electronic dication states and their dissociation pathways via spin-orbit coupling and charge transfer at crossings and seams on the potential energy surfaces. Notably, we could distinguish between direct and fast sequential dissociation scenarios. For the latter case, our measurements reveal the geometry and orientation of the deuterated water molecule with respect to the polarization vector that leads to this rare 3-body molecular breakup channel. Aided by multi-reference configuration-interaction calculations, the dissociation dynamics could be traced on the relevant potential energy surfaces and particularly their crossings and seams. This approach also unraveled the ultrafast time scales governing these processes.

Published
2024

5. A Learning-to-Rank Formulation of Clustering-Based Approximate Nearest Neighbor Search

Author

Vecchiato, Thomas, Lucchese, Claudio, Nardini, Franco Maria, and Bruch, Sebastian

Subjects
Computer Science - Information Retrieval
Abstract

A critical piece of the modern information retrieval puzzle is approximate nearest neighbor search. Its objective is to return a set of $k$ data points that are closest to a query point, with its accuracy measured by the proportion of exact nearest neighbors captured in the returned set. One popular approach to this question is clustering: The indexing algorithm partitions data points into non-overlapping subsets and represents each partition by a point such as its centroid. The query processing algorithm first identifies the nearest clusters -- a process known as routing -- then performs a nearest neighbor search over those clusters only. In this work, we make a simple observation: The routing function solves a ranking problem. Its quality can therefore be assessed with a ranking metric, making the function amenable to learning-to-rank. Interestingly, ground-truth is often freely available: Given a query distribution in a top-$k$ configuration, the ground-truth is the set of clusters that contain the exact top-$k$ vectors. We develop this insight and apply it to Maximum Inner Product Search (MIPS). As we demonstrate empirically on various datasets, learning a simple linear function consistently improves the accuracy of clustering-based MIPS.

Published
2024
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8. Attosecond X-ray Chronoscopy of Core-level Photoemission

Author

Ji, Jia-Bao, Guo, Zhaoheng, Driver, Taran, Trevisan, Cynthia S., Cesar, David, Cheng, Xinxin, Duris, Joseph, Franz, Paris L., Glownia, James, Gong, Xiaochun, Hammerland, Daniel, Han, Meng, Heck, Saijoscha, Hoffmann, Matthias, Kamalov, Andrei, Larsen, Kirk A., Li, Xiang, Lin, Ming-Fu, Liu, Yuchen, McCurdy, C. William, Obaid, Razib, ONeal, Jordan T., Rescigno, Thomas N., Robles, River R., Sudar, Nicholas, Walter, Peter, Wang, Anna L., Wang, Jun, Wolf, Thomas J. A., Zhang, Zhen, Ueda, Kiyoshi, Lucchese, Robert R., Marinelli, Agostino, Cryan, James P., and Wörner, Hans Jakob

Subjects
Physics - Chemical Physics
Abstract

Attosecond photoemission or photoionization delays are a unique probe of the structure and the electronic dynamics of matter. However, spectral congestion and spatial delocalization of valence electron wave functions set fundamental limits to the complexity of systems that can be studied and the information that can be retrieved, respectively. Using attosecond X-ray pulses from LCLS, we demonstrate the key advantages of measuring core-level delays: the photoelectron spectra remain atom-like, the measurements become element specific and the observed scattering dynamics originate from a point-like source. We exploit these unique features to reveal the effects of electronegativity and symmetry on attosecond scattering dynamics by measuring the photoionization delays between N-1s and C-1s core shells of a series of aromatic azabenzene molecules. Remarkably, the delays systematically increase with the number of nitrogen atoms in the molecule and reveal multiple resonances. We identify two previously unknown mechanisms regulating the associated attosecond dynamics, namely the enhanced confinement of the trapped wavefunction with increasing electronegativity of the atoms and the decrease of the coupling strength among the photoemitted partial waves with increasing symmetry. This study demonstrates the unique opportunities opened by measurements of core-level photoionization delays for unravelling attosecond electron dynamics in complex matter.

Published
2024

9. Verifiable Boosted Tree Ensembles

Author

Calzavara, Stefano, Cazzaro, Lorenzo, Lucchese, Claudio, and Pibiri, Giulio Ermanno

Subjects
Computer Science - Machine Learning, Computer Science - Cryptography and Security, Computer Science - Logic in Computer Science, Statistics - Machine Learning
Abstract

Verifiable learning advocates for training machine learning models amenable to efficient security verification. Prior research demonstrated that specific classes of decision tree ensembles -- called large-spread ensembles -- allow for robustness verification in polynomial time against any norm-based attacker. This study expands prior work on verifiable learning from basic ensemble methods (i.e., hard majority voting) to advanced boosted tree ensembles, such as those trained using XGBoost or LightGBM. Our formal results indicate that robustness verification is achievable in polynomial time when considering attackers based on the $L_\infty$-norm, but remains NP-hard for other norm-based attackers. Nevertheless, we present a pseudo-polynomial time algorithm to verify robustness against attackers based on the $L_p$-norm for any $p \in \mathbb{N} \cup \{0\}$, which in practice grants excellent performance. Our experimental evaluation shows that large-spread boosted ensembles are accurate enough for practical adoption, while being amenable to efficient security verification., Comment: 15 pages, 3 figures

Published
2024

10. Attosecond Delays in X-ray Molecular Ionization

Author

Driver, Taran, Mountney, Miles, Wang, Jun, Ortmann, Lisa, Al-Haddad, Andre, Berrah, Nora, Bostedt, Christoph, Champenois, Elio G., DiMauro, Louis F., Duris, Joseph, Garratt, Douglas, Glownia, James M., Guo, Zhaoheng, Haxton, Daniel, Isele, Erik, Ivanov, Igor, Ji, Jiabao, Kamalov, Andrei, Li, Siqi, Lin, Ming-Fu, Marangos, Jon P., Obaid, Razib, O'Neal, Jordan T., Rosenberger, Philipp, Shivaram, Niranjan H., Wang, Anna L., Walter, Peter, Wolf, Thomas J. A., Wörner, Hans Jakob, Zhang, Zhen, Bucksbaum, Philip H., Kling, Matthias F., Landsman, Alexandra S., Lucchese, Robert R., Emmanouilidou, Agapi, Marinelli, Agostino, and Cryan, James P.

Subjects
Physics - Atomic Physics
Abstract

The photoelectric effect is not truly instantaneous, but exhibits attosecond delays that can reveal complex molecular dynamics. Sub-femtosecond duration light pulses provide the requisite tools to resolve the dynamics of photoionization. Accordingly, the past decade has produced a large volume of work on photoionization delays following single photon absorption of an extreme ultraviolet (XUV) photon. However, the measurement of time-resolved core-level photoionization remained out of reach. The required x-ray photon energies needed for core-level photoionization were not available with attosecond tabletop sources. We have now measured the x-ray photoemission delay of core-level electrons, and here report unexpectedly large delays, ranging up to 700 attoseconds in NO near the oxygen K-shell threshold. These measurements exploit attosecond soft x-ray pulses from a free-electron laser (XFEL) to scan across the entire region near the K-shell threshold. Furthermore, we find the delay spectrum is richly modulated, suggesting several contributions including transient trapping of the photoelectron due to shape resonances, collisions with the Auger-Meitner electron that is emitted in the rapid non-radiative relaxation of the molecule, and multi-electron scattering effects. The results demonstrate how x-ray attosecond experiments, supported by comprehensive theoretical modelling, can unravel the complex correlated dynamics of core-level photoionization.

Published
2024

11. Bond-length dependence of attosecond ionization delays in O2 arising from electron correlation to a shape resonance

Author

Hammerland, Daniel, Berglitsch, Thomas, Zhang, Pengju, Luu, Tran Trung, Ueda, Kiyoshi, Lucchese, Robert R, and Wörner, Hans Jakob

Subjects
Physical Sciences, Chemical Sciences, Atomic, Molecular and Optical Physics, Physical Chemistry
Abstract

We experimentally and theoretically demonstrate that electron correlation can cause the bond-length sensitivity of a shape resonance to induce an unexpected vibrational state-dependent ionization delay in a nonresonant channel. This discovery was enabled by a high-resolution attosecond-interferometry experiment based on a 400-nm driving and dressing wavelength. The short-wavelength driver results in a 6.2-electron volt separation between harmonics, markedly reducing the spectral overlap in the measured interferogram. We demonstrate the promise of this method on O2, a system characterized by broad vibrational progressions and a dense photoelectron spectrum. We measure a 40-attosecond variation of the photoionization delays over the X2Πg vibrational progression. Multichannel calculations show that this variation originates from a strong bond-length dependence of the energetic position of a shape resonance in the [Formula: see text] channel, which translates to the observed effects through electron correlation. The unprecedented energy resolution and delay accuracies demonstrate the promise of visible-light-driven molecular attosecond interferometry.

Published
2024

15. BIM and Code Checking for School Buildings: Standard Checks for IAQ

Author

D’Amico, Alessandro, Currà, Edoardo, Di Livio, Pierfrancesco, Del Lucchese, Francesco, Pini, Agnese, Rognoni, Marco, di Prisco, Marco, Series Editor, Chen, Sheng-Hong, Series Editor, Vayas, Ioannis, Series Editor, Kumar Shukla, Sanjay, Series Editor, Sharma, Anuj, Series Editor, Kumar, Nagesh, Series Editor, Wang, Chien Ming, Series Editor, Cui, Zhen-Dong, Series Editor, Lu, Xinzheng, Series Editor, Corrao, Rossella, editor, Campisi, Tiziana, editor, Colajanni, Simona, editor, Saeli, Manfredi, editor, and Vinci, Calogero, editor

Published
2025
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17. Motivations of family advisors in engaging in research to improve a palliative approach to care for persons living with dementia: an interpretive descriptive study

Author

Stephanie Lucchese, Marie-Lee Yous, Julia Kruizinga, Shirin Vellani, Vanessa Maradiaga Rivas, Bianca Tétrault, Pam Holliday, Carmel Geoghegan, Danielle Just, Tamara Sussman, Rebecca Ganann, and Sharon Kaasalainen

Subjects
Patient oriented research, Palliative care, End-of-life care, Dementia, Long-term care, Medicine, Medicine (General), R5-920
Abstract

Abstract Background A Strategic Guiding Council (SGC) was created within a Family Carer Decisions Support study, to engage family carers of persons with advanced dementia as advisors to inform the design and implementation of the study. The SGC consists of an international group of family advisors from Canada, the Republic of Ireland, the United Kingdom, the Netherlands, and the Czech Republic. There are limited studies that have explored the integration of Patient and Public Involvement (PPI) in dementia research, end-of-life care and long-term care. Therefore, this study explores PPI engagement in health research with family carers to understand further their interest in being involved in the SCG within the FCDS intervention which is focused on supporting caregivers to make decisions about end-of-life care for residents with advanced dementia. Methods This study utilized an interpretive descriptive design and explored the motivations of ten family advisors from Canada, the Republic of Ireland, the United Kingdom, and the Netherlands in being part of the SGC. Semi-structured interviews were conducted by phone or videoconferencing and were recorded, transcribed, and analyzed using thematic analysis. Results Three themes generated from the findings of the study were (1) engaging in reciprocal learning; (2) using lived experience to support other family carers; and (3) creating a collective momentum for advocacy and change. Conclusions Family carers motivations to being part of the SCG was driven by their intent to help carers navigate the health system and to create a psychosocial support system for other carers experiencing end-of-life with their loved ones. Being part of the SCG provided a benefit to family carers which provided a venue for them to contribute meaningful information from their experience, learn from other health professionals, research and other advisors and an avenue for advocacy work to improve access to end-of-life care supports through education. To our knowledge, this is the first study that explores the motivations of an international group of family advisors’ engagement in health research to promote integration of a palliative approach to dementia care in long-term care homes. This study further contributes to the literature from an international perspective the importance of PPI in research. Further research is warranted that explores PPI in research to improve access to end-of-life supports.

Published
2024
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18. Estimation and Inference for Multivariate Continuous-time Autoregressive Processes

Author

Lucchese, Lorenzo, Pakkanen, Mikko S., and Veraart, Almut E. D.

Subjects
Statistics - Methodology, Mathematics - Statistics Theory, 62F12 (Primary), 60G30 (Secondary)
Abstract

The aim of this paper is to develop estimation and inference methods for the drift parameters of multivariate L\'evy-driven continuous-time autoregressive processes of order $p\in\mathbb{N}$. Starting from a continuous-time observation of the process, we develop consistent and asymptotically normal maximum likelihood estimators. We then relax the unrealistic assumption of continuous-time observation by considering natural discretizations based on a combination of Riemann-sum, finite difference, and thresholding approximations. The resulting estimators are also proven to be consistent and asymptotically normal under a general set of conditions, allowing for both finite and infinite jump activity in the driving L\'evy process. When discretizing the estimators, allowing for irregularly spaced observations is of great practical importance. In this respect, CAR($p$) models are not just relevant for "true" continuous-time processes: a CAR($p$) specification provides a natural continuous-time interpolation for modeling irregularly spaced data - even if the observed process is inherently discrete. As a practically relevant application, we consider the setting where the multivariate observation is known to possess a graphical structure. We refer to such a process as GrCAR and discuss the corresponding drift estimators and their properties. The finite sample behavior of all theoretical asymptotic results is empirically assessed by extensive simulation experiments.

Published
2023

19. Efficiency of charge transfer in changing the dissociation dynamics of OD+ transients formed after the photo-fragmentation of D2O

Author

Iskandar, W, Rescigno, TN, Orel, AE, Severt, T, Larsen, KA, Streeter, ZL, Jochim, B, Griffin, B, Call, D, Davis, V, McCurdy, CW, Lucchese, RR, Williams, JB, Ben-Itzhak, I, Slaughter, DS, and Weber, Th

Subjects
Physical Sciences, Chemical Sciences, Atomic, Molecular and Optical Physics, Physical Chemistry, CSD-46-All CSGB, CSD-01-AMOS-A, Engineering, Chemical Physics, Chemical sciences, Physical sciences
Abstract

We present an investigation of the relaxation dynamics of deuterated water molecules after direct photo-double ionization at 61 eV. We focus on the very rare D+ + O+ + D reaction channel in which the sequential fragmentation mechanisms were found to dominate the dynamics. Aided by theory, the state-selective formation and breakup of the transient OD+(a1Δ, b1Σ+) is traced, and the most likely dissociation path-OD+: a1Δ or b1Σ+ → A 3Π → X 3Σ- → B 3Σ--involving a combination of spin-orbit and non-adiabatic charge transfer transitions is determined. The multi-step transition probability of this complex transition sequence in the intermediate fragment ion is directly evaluated as a function of the energy of the transient OD+ above its lowest dissociation limit from the measured ratio of the D+ + O+ + D and competing D+ + D+ + O sequential fragmentation channels, which are measured simultaneously. Our coupled-channel time-dependent dynamics calculations reproduce the general trends of these multi-state relative transition rates toward the three-body fragmentation channels.

Published
2023

20. Pump and ionizing-probe dynamics in a simultaneous treatment of electronic and nuclear motion in LiH

Author

Bello, Roger Y, Lucchese, Robert R, and McCurdy, C William

Subjects
Physical Sciences, Chemical Sciences, Atomic, Molecular and Optical Physics, Physical Chemistry, Chemical sciences, Mathematical sciences, Physical sciences
Abstract

The dissociative single ionization of the LiH molecule using a two-color UV-UV pump-probe scheme is simulated in ab initio calculations demonstrating how the dynamics initiated on intermediate Rydberg states of diatomic molecules can be imaged by such experiments. The theoretical treatment combines nuclear motion with highly correlated descriptions of electronic continua and bound electronic states. Nuclear dynamics on Rydberg states are only weakly reflected by changes in photoelectron energies ejected by time-delayed ionizing pulses if the Rydberg potential curves parallel those of the ion states being produced. However, coincidence measurements guided by knowledge of the photoionization amplitudes as a function of internuclear distance can still reveal intermediate-state dynamics in pump-probe experiments.

Published
2023

21. Angularly resolved photoionization dynamics in atoms and molecules combining temporally and spectrally resolved experiments at ATTOLab and Synchrotron SOLEIL

Author

Joseph, Jennifer, Holzmeier, Fabian, Bresteau, David, Ruchon, Thierry, Houver, Jean-Christophe, Lucchese, Robert R, and Dowek, Danielle

Subjects
Atomic, Molecular and Optical Physics, Physical Sciences, CSD-46-All CSGB, CSD-01-AMOS-A, Mathematical Sciences, Applied Physics, Fluids & Plasmas, Mathematical sciences, Physical sciences
Abstract

We report results for XUV-IR two-photon ionization of Ar, Ne, NO, and O2, where an XUV attosecond pulse train is superimposed with a synchronized IR pulse, obtained at the ATTOLab laser facility using electron–ion coincidence 3D momentum spectroscopy. Temporally resolved photoelectron angular distributions providing angle-resolved time-delays for np ionization of Ar and Ne, achieved by reconstruction of attosecond beating by interference of two-photon transitions through a unified formalism (Joseph et al. in J Phys B At Mol Opt Phys 53:184007, 2020), are summarized. For inner valence XUV-IR dissociative photoionization of NO and O2 molecules, we report electron–ion kinetic energy correlation diagrams and disentangle the dissociative photoionization processes relying on parallel XUV experiments at Synchrotron SOLEIL. For ionization into the NO+(c3Π) ionic state, extending the formalism developed for single-photon ionization, we focus on photoelectron angular distributions averaged on the delay between the XUV and the IR field in the field frame, molecular frame, and electron frame of reference.

Published
2023

24. Epidemiology of Non-Contact Muscle Injuries in the Italian Male Elite Under-19 Football (Soccer) Championship

Author

Magistrali, Massimo, Stefanini, Luca, Abate, Michele, Biancalana, Giulio, Stegagno, Andrea, Cugia, Paolo, Candoli, Piero, Anania, Giuseppe, Lucchese, Pier Luigi, Gaddi, Diego, Volpi, Piero, Mariani, Francesco, Boldrini, Lorenzo, Filippi, Nicola, Cerrone, Annunziata, Sirtori, Cristiano, Battaglino, Paolo, Bravin, Guido, Del Fabro, Emilio, Berti, Mattia, Vecchini, Eugenio, and Minetto, Marco A.

Published
2024
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26. Efficient and Effective Tree-based and Neural Learning to Rank

Author

Bruch, Sebastian, Lucchese, Claudio, and Nardini, Franco Maria

Subjects
Computer Science - Information Retrieval
Abstract

This monograph takes a step towards promoting the study of efficiency in the era of neural information retrieval by offering a comprehensive survey of the literature on efficiency and effectiveness in ranking, and to a limited extent, retrieval. This monograph was inspired by the parallels that exist between the challenges in neural network-based ranking solutions and their predecessors, decision forest-based learning to rank models, as well as the connections between the solutions the literature to date has to offer. We believe that by understanding the fundamentals underpinning these algorithmic and data structure solutions for containing the contentious relationship between efficiency and effectiveness, one can better identify future directions and more efficiently determine the merits of ideas. We also present what we believe to be important research directions in the forefront of efficiency and effectiveness in retrieval and ranking.

Published
2023
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27. Fast Inference of Tree Ensembles on ARM Devices

Author

Koschel, Simon, Buschjäger, Sebastian, Lucchese, Claudio, and Morik, Katharina

Subjects
Computer Science - Machine Learning
Abstract

With the ongoing integration of Machine Learning models into everyday life, e.g. in the form of the Internet of Things (IoT), the evaluation of learned models becomes more and more an important issue. Tree ensembles are one of the best black-box classifiers available and routinely outperform more complex classifiers. While the fast application of tree ensembles has already been studied in the literature for Intel CPUs, they have not yet been studied in the context of ARM CPUs which are more dominant for IoT applications. In this paper, we convert the popular QuickScorer algorithm and its siblings from Intel's AVX to ARM's NEON instruction set. Second, we extend our implementation from ranking models to classification models such as Random Forests. Third, we investigate the effects of using fixed-point quantization in Random Forests. Our study shows that a careful implementation of tree traversal on ARM CPUs leads to a speed-up of up to 9.4 compared to a reference implementation. Moreover, quantized models seem to outperform models using floating-point values in terms of speed in almost all cases, with a neglectable impact on the predictive performance of the model. Finally, our study highlights architectural differences between ARM and Intel CPUs and between different ARM devices that imply that the best implementation depends on both the specific forest as well as the specific device used for deployment., Comment: 12 pages, 2 figures, 4 algorithms

Published
2023

28. Epidemiology of Non-Contact Muscle Injuries in the Italian Male Elite Under-19 Football (Soccer) Championship

Author

Massimo Magistrali, Luca Stefanini, Michele Abate, Giulio Biancalana, Andrea Stegagno, Paolo Cugia, Piero Candoli, Giuseppe Anania, Pier Luigi Lucchese, Diego Gaddi, Piero Volpi, Francesco Mariani, Lorenzo Boldrini, Nicola Filippi, Annunziata Cerrone, Cristiano Sirtori, Paolo Battaglino, Guido Bravin, Emilio Del Fabro, Mattia Berti, Eugenio Vecchini, and Marco A. Minetto

Subjects
Hamstrings, Adductors, Iliopsoas, Incidence, Burden, Distribution, Sports medicine, RC1200-1245
Abstract

Abstract Background While extensive research exists on muscle injuries among adult football players, a notable gap persists in studies concerning younger footballers. The aim of the current study is to provide epidemiological data on the characteristics of time-loss muscle injuries in young football players participating in the Italian Under-19 male elite Championship (“Primavera 1”). Results Conducted as a multicentre, prospective, observational cohort study, this research gathered injury data from the 2022-23 season across 14 of the 18 Clubs in the first Italian Under-19 championship. The cohort comprised 391 players with a mean age (± standard deviation) of 18.0 ± 0.4 years. A total of 479 injuries were reported, resulting in 14,231 days of activity lost. Of these, muscle injuries were 209 (44%), accounting for 4,519 (32%) days lost. Overall muscle injuries incidence was 1.82/1000 hours, with a mean injury burden of 39.4 days lost/1000 hours. Almost all muscle injuries (206 out of 209: 98.5%) occurred in hamstrings, quadriceps, adductors, calf and iliopsoas. Hamstrings injuries were the most burdensome (18.8 days lost/1000 hours) accounting for nearly half of all days lost due to muscle injuries. Incidence and burden of adductors injuries (0.25 injuries and 4.1 days lost/1000 hours, respectively) were found to be comparable to calf injuries (0.24 injuries and 4.7 days lost/1000 hours, respectively). Iliopsoas injuries accounted for a noteworthy portion of the total, with an injury incidence of 0.16/1000 hours and a burden of 3.3 days lost/1000 hours. Injuries with myo-tendinous or myo-aponeurotic involvement demonstrated delayed return-to-football compared to those without such involvement (35.6 vs. 18.5 days, p

Published
2024
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29. Occlusal traits in developmental dyslexia: a preliminary study

Author

Perillo L, Esposito M, Contiello M, Lucchese A, Santini AC, and Carotenuto M

Subjects
Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571, Neurology. Diseases of the nervous system, RC346-429
Abstract

Letizia Perillo,1 Maria Esposito,2 Mariarosaria Contiello,1 Alessandra Lucchese,3 Annamaria Chiara Santini,2 Marco Carotenuto2 1Department of Orthodontics, Second University of Naples, Naples, 2Clinic of Child and Adolescent Neuropsychiatry, Department of Mental Health, Physical and Preventive Medicine, Second University of Naples, Naples, 3Department of Orthodontics, University of Ferrara, Ferrara, Italy Aim: The objective of the study reported here was to assess the orthodontic features in children affected by developmental dyslexia (DD). Patients and methods: A total of 28 children affected by DD (22 boys, six girls; mean age: 9.78 ± 1.69 years) were compared with 51 healthy children (38 boys, 13 girls; mean age 9.41 ± 1.48; range 7–10 years). Reading and writing skills were evaluated along with orthodontic features. Results: The DD and control groups were not significantly different in terms of total intelligence quotient (P = 0.441) and writing skills (P = 0.805 and P = 0.240, respectively), whereas significant differences were observed between the DD group and control group in both word reading (2.018 ± 1.714 vs 0.917 ± 0.563; P = 0.000) and non-word reading (2.537 ± 1.543 vs 0.862 ± 0.244; P = 0.000). Moreover, for many orthodontic features, there was no significant difference between the two groups; only in prevalence of diastemas (57.14%, P = 0.006), midline diastemas (46.42%, P = 0.007), overbite >4 mm (71.42%, P = 0.006) and overjet >4 mm (53.57%, P = 0.001), was there a statistically significant difference. According to univariate logistic regression analysis, the presence of diastemas (odds ratio [OR] 4.33; 95% confidence interval [CI] 1.61–11.65), midline diastemas (OR 4.68; 95% CI 1.61–13.43), an overbite >4 mm (OR 1.75; 95% CI 0.64–4.71), or an overjet >4 mm (OR 2.76; 95% CI 1.06–7.20) seems to play a role in the relationship between occlusal abnormalities and DD in children. Conclusion: Children with DD tend to present with altered dental features, particularly in the area of the incisors, suggesting that a persistently different tongue kinematic profile may thus affect both the developmental variability of the tongue and lip and the occlusion. Keywords: malocclusion, orthodontic features, learning disorder, kinematic profile

Published
2013

30. MOBILIDADE ELÉTRICA: AVALIAÇÃO DO CENÁRIO ATUAL E FUTURO

Author

Hammerschmitt, Bruno Knevitz, primary, Lucchese, Felipe Cirolini, additional, Capeletti, Marcelo Bruno, additional, Sausen, Jordan Passinato, additional, Borniatti, André Ross, additional, Barriquello, Carlos Henrique, additional, and Abaide, Alzenira da Rosa, additional

Published
2024
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31. A Theoretical Framework for AI Models Explainability with Application in Biomedicine

Author

Rizzo, Matteo, Veneri, Alberto, Albarelli, Andrea, Lucchese, Claudio, Nobile, Marco, and Conati, Cristina

Subjects
Computer Science - Artificial Intelligence, Computer Science - Computer Vision and Pattern Recognition, Computer Science - Machine Learning
Abstract

EXplainable Artificial Intelligence (XAI) is a vibrant research topic in the artificial intelligence community, with growing interest across methods and domains. Much has been written about the subject, yet XAI still lacks shared terminology and a framework capable of providing structural soundness to explanations. In our work, we address these issues by proposing a novel definition of explanation that is a synthesis of what can be found in the literature. We recognize that explanations are not atomic but the combination of evidence stemming from the model and its input-output mapping, and the human interpretation of this evidence. Furthermore, we fit explanations into the properties of faithfulness (i.e., the explanation being a true description of the model's inner workings and decision-making process) and plausibility (i.e., how much the explanation looks convincing to the user). Using our proposed theoretical framework simplifies how these properties are operationalized and it provides new insight into common explanation methods that we analyze as case studies.

Published
2022

32. The ' Nasci Bem ' app for health professionals and families of newborns: construction, validation and evaluation

Author

Ingrid Lucchese, Fernanda Garcia Bezerra Góes, Maithê de Carvalho e Lemos Goulart, Maria da Anunciação Silva, Aline Cerqueira Santos Santana da Silva, and Liliane Faria da Silva

Subjects
Mobile Applications, Rooming-in Care, Hospitals, Maternity, Infant, newborn, Delivery Rooms, Educational Technology, Nursing, RT1-120
Abstract

Objective: to construct, validate and evaluate an app for mobile devices on humanized care practices for newborns at habitual risk in maternity wards, aimed at health professionals and family members. Method: a methodological study in seven stages: Literature review; Content organization; App construction; Validation by experts; Suitability after validation; Evaluation by the target audience; and Suitability after evaluation. A total of 22 experts took part in the validation and 21 individuals from the target audience in the evaluation. The instruments addressed content, face and/or motivation, with the System Usability Scale for usability. The following was calculated: Concordance Index and Usability Score. Results: in the validation process, the app achieved a Concordance Index of 0.97; ranging from 0.82 to 1.0 across the items analyzed. In the evaluation, the index was 0.99, varying from 0.95 to 1.0. In usability of the first version, the Concordance Index was 0.92 and the Usability Score was 93. In the second version, the index was 0.93 and the score was 94, indicating better usability achieved since the first version. Conclusion: the “ Nasci Bem ” app proved to be comprehensible, relevant, pertinent, efficient, easy to use, with low inconsistency, and with excellent potential to use it as educational technology for professionals and family members.

Published
2024
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33. Comparison of dry and wet electroencephalography for the assessment of cognitive evoked potentials and sensor-level connectivity

Author

Nina M. Ehrhardt, Clara Niehoff, Anna-Christina Oßwald, Daria Antonenko, Guglielmo Lucchese, and Robert Fleischmann

Subjects
dry EEG, mismatch negativity, theta power, resting-state connectivity, minimum spanning tree, phase lag index, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571
Abstract

BackgroundMultipin dry electrodes (dry EEG) provide faster and more convenient application than wet EEG, enabling extensive data collection. This study aims to compare task-related time-frequency representations and resting-state connectivity between wet and dry EEG methods to establish a foundation for using dry EEG in investigations of brain activity in neuropsychiatric disorders.MethodsIn this counterbalanced cross-over study, we acquired wet and dry EEG in 33 healthy participants [n = 22 females, mean age (SD) = 24.3 (± 3.4) years] during resting-state and an auditory oddball paradigm. We computed mismatch negativity (MMN), theta power in task EEG, and connectivity measures from resting-state EEG using phase lag index (PLI) and minimum spanning tree (MST). Agreement between wet and dry EEG was assessed using Bland–Altman bias.ResultsMMN was detectable with both systems in time and frequency domains, but dry EEG underestimated MMN mean amplitude, peak latency, and theta power compared to wet EEG. Resting-state connectivity was reliably estimated with dry EEG using MST diameter in all except the very low frequencies (0.5–4 Hz). PLI showed larger differences between wet and dry EEG in all frequencies except theta.ConclusionDry EEG reliably detected MMN and resting-state connectivity despite a lower signal-to-noise ratio. This study provides the methodological basis for using dry EEG in studies investigating the neural processes underlying psychiatric and neurological conditions.

Published
2024
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34. A RELAÇÃO ENTRE O TRANSPLANTE DE MEDULA ÓSSEA E O AUMENTO DA PERSPECTIVA DE VIDA EM CRIANÇAS DENTRO DO BRASIL

Author

CCA Ferreira, PS Araújo, GSLBD Santos, HH Weber, IND Santos, BS Araujo, GC Lucchese, IF Oliveira, LCC Júnior, and M Cunha

Subjects
Diseases of the blood and blood-forming organs, RC633-647.5
Abstract

Introdução: O Transplante de Medula Óssea (TMO) é um tipo de tratamento que vem mudando o cenário de cura e prolongamento da expectativa de vida de crianças em tratamento de linfomas e leucemias no Brasil. Porém, esse tipo de intervenção possui seus desafios, como: requerer recursos específicos devido sua complexidade, efeitos colaterais desagradáveis, depressão imunológica associada à quimioterapia e radioterapia, complicações do sistema imune e do procedimento, entre outros. Objetivos: Analisar os dados públicos sobre transplante de medula óssea e relacioná-los com o cenário da perspectiva de vida infantil no país. Compreender a importância do transplante de medula óssea no contexto de saúde brasileiro com um enfoque na população pediátrica. Resultados: O diagnóstico de doença hematológica na criança, assim como a instituição do tratamento com o TMO, interrompe a linha de continuidade do desenvolvimento desse indivíduo, levando a uma ruptura do cotidiano, o que impacta negativamente na sua qualidade de vida. Entretanto, o período após o tratamento é marcado pela possibilidade de retomada de atividades interrompidas, oferecendo uma oportunidade de resgate da normalidade e reorganização do cotidiano, mesmo que com algumas limitações. Essa nova configuração, com mais possibilidades e menos restrições pode estar relacionada com a melhora na qualidade de vida, um ano após o TMO. Pode-se afirmar, portanto, que, em decorrência do tratamento, a qualidade de vida dos pacientes é comprometida imediatamente após a TMO, porém, com a recuperação em um período de 1 ano, chega-se a alcançar patamares semelhantes ao período que antecede à internação. A análise do estudo mostra uma melhora contínua nas taxas de sobrevida, sugerindo avanços nas técnicas de TMO e no manejo pós transplante. Isso também pode ser um reflexo do investimento em capacitação de profissionais de saúde e em infraestruturas hospitalares especializadas. Metodologia: Para analisar a relação entre o transplante de medula óssea e o aumento da perspectiva de vida em crianças no Brasil, foi realizado um levantamento bibliográfico de estudos e dados epidemiológicos dos últimos 15 anos, e comparados a respeito das taxas de sobrevivência, condições médicas pré-existentes e complicações pós-transplante de pacientes pediátricos no país. Para isso, foi utilizado as plataformas acadêmicas SciELO, PubMed, Google Scholar, LILACS e Web of Science, com análise dos trabalhos selecionados de forma quantitativa e qualitativa. Discussão: De acordo com Anders (1999), o transplante de medula óssea faz parte de uma terapêutica que busca garantir o prolongamento de vida, porém é um caminho difícil a ser percorrido pelo paciente e seus familiares, principalmente pela complexidade do processo, desde a fase inicial do diagnóstico da doenca, passando pelas várias fases do tratamento na procura da sobrevivência as complicações, que são submetidos até estarem curados. O TMO nos mostra um verdadeiro paradoxo, o qual oferta um potencial que pode salvar e ao mesmo tempo ameaçar a vida do paciente. No decorrer das pesquisas, observamos que inúmeros estudos evidenciam que esse transplante pode curar ou gerar uma remissão prolongada em pacientes acometidos por essas doenças (Gonçalves et al., 2019). Pode-se concluir, por meio dessas pesquisas de trabalho, a importância do transplante de medula óssea no contexto de saúde brasileiro, sendo um tratamento desafiador, eficaz, e uma intervenção vital para aumentar a perspectiva de vida, que vem mudando o cenário de cura e prolongamento da expectativa de vida de crianças em tratamento de linfomas e leucemias no Brasil. Alem disso, vimos através do estudo uma melhora contínua nas taxas de sobrevida, sugerindo avanços nas técnicas de TMO e no manejo pós transplante.

Published
2024
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35. Factors Associated with Poor Sleep Quality in Postpartum Women: A Crossectional Study

Author

Ana Júlia Pereira Motta, Roselma Lucchese, Graciele Cristina Silva Leão, Dayane Eusenia Rosa, Vilmar De Assis Gonçalves, and Revora Silverio Mendonça

Subjects
postpartum, sleep quality, women's health, Psychology, BF1-990, Consciousness. Cognition, BF309-499
Abstract

Objective This study aimed to analyze the factors associated with poor sleep quality in women in the postpartum period who were assisted in a municipality in central Brazil.

Published
2024
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37. Classification of Autism Spectrum Disorder Using a 3D-CNN Ensemble Model and Regional Homogeneity Data from the ABIDE I Dataset

Author

Bauer-Negrini, Guilherme, Lucchese, Luísa Vieira, Botelho, Viviane Rodrigues, Pianoschi, Thatiane Alves, Becker, Carla Diniz Lopes, Magjarević, Ratko, Series Editor, Ładyżyński, Piotr, Associate Editor, Ibrahim, Fatimah, Associate Editor, Lackovic, Igor, Associate Editor, Rock, Emilio Sacristan, Associate Editor, Marques, Jefferson Luiz Brum, editor, Rodrigues, Cesar Ramos, editor, Suzuki, Daniela Ota Hisayasu, editor, Marino Neto, José, editor, and García Ojeda, Renato, editor

Published
2024
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38. The Short-Term Predictability of Returns in Order Book Markets: a Deep Learning Perspective

Author

Lucchese, Lorenzo, Pakkanen, Mikko, and Veraart, Almut

Subjects
Quantitative Finance - Computational Finance, Quantitative Finance - Trading and Market Microstructure
Abstract

In this paper, we conduct a systematic large-scale analysis of order book-driven predictability in high-frequency returns by leveraging deep learning techniques. First, we introduce a new and robust representation of the order book, the volume representation. Next, we carry out an extensive empirical experiment to address various questions regarding predictability. We investigate if and how far ahead there is predictability, the importance of a robust data representation, the advantages of multi-horizon modeling, and the presence of universal trading patterns. We use model confidence sets, which provide a formalized statistical inference framework particularly well suited to answer these questions. Our findings show that at high frequencies predictability in mid-price returns is not just present, but ubiquitous. The performance of the deep learning models is strongly dependent on the choice of order book representation, and in this respect, the volume representation appears to have multiple practical advantages.

Published
2022

39. Filming Enhanced Ionization in an Ultrafast Triatomic Slingshot

Author

Howard, A. J., Britton, M., Streeter, Z. L., Cheng, C., Forbes, R., Reynolds, J. L., Allum, F., McCracken, G. A., Gabalski, I., Lucchese, R. R., McCurdy, C. W., Weinacht, T., and Bucksbaum, P. H.

Subjects
Physics - Chemical Physics, Physics - Atomic Physics, Physics - Optics, Quantum Physics
Abstract

Filming atomic motion within molecules is an active pursuit of molecular physics and quantum chemistry. A promising method is laser-induced Coulomb Explosion Imaging (CEI) where a laser pulse rapidly ionizes many electrons from a molecule, causing the remaining ions to undergo Coulomb repulsion. The ion momenta are used to reconstruct the molecular geometry which is tracked over time (i.e. filmed) by ionizing at an adjustable delay with respect to the start of interatomic motion. Results are distorted, however, by ultrafast motion during the ionizing pulse. We studied this effect in water and filmed the rapid "slingshot" motion that enhances ionization and distorts CEI results. Our investigation uncovered both the geometry and mechanism of the enhancement which may inform CEI experiments in many other polyatomic molecules.

Published
2022

40. Two-center Interference in the Photoionization Delays of Kr2

Author

Heck, Saijoscha, Han, Meng, Jelovina, Denis, Ji, Jia-Bao, Perry, Conaill, Gong, Xiaochun, Lucchese, Robert, Ueda, Kiyoshi, and Woerner, Hans Jakob

Subjects
Physics - Atomic Physics
Abstract

We present the experimental observation of two-center interference in the ionization time delays of Kr2. Using attosecond electron-ion-coincidence spectroscopy, we simultaneously measure the photoionization delays of krypton monomer and dimer. The relative time delay is found to oscillate as a function of the electron kinetic energy, an effect that is traced back to constructive and destructive interference of the photoelectron wave packets that are emitted or scattered from the two atomic centers. Our interpretation of the experimental results is supported by solving the time-independent Schrodinger equation of a 1D double-well potential, as well as coupled-channel multiconfigurational quantum-scattering calculations of Kr2. This work opens the door to the study of a broad class of quantum-interference effects in photoionization delays and demonstrates the potential of attosecond coincidence spectroscopy for studying weakly bound systems., Comment: 6 pages, 4 figures

Published
2022
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41. Explainable Global Fairness Verification of Tree-Based Classifiers

Author

Calzavara, Stefano, Cazzaro, Lorenzo, Lucchese, Claudio, and Marcuzzi, Federico

Subjects
Computer Science - Machine Learning, Computer Science - Logic in Computer Science
Abstract

We present a new approach to the global fairness verification of tree-based classifiers. Given a tree-based classifier and a set of sensitive features potentially leading to discrimination, our analysis synthesizes sufficient conditions for fairness, expressed as a set of traditional propositional logic formulas, which are readily understandable by human experts. The verified fairness guarantees are global, in that the formulas predicate over all the possible inputs of the classifier, rather than just a few specific test instances. Our analysis is formally proved both sound and complete. Experimental results on public datasets show that the analysis is precise, explainable to human experts and efficient enough for practical adoption., Comment: 15 pages with 7 figures

Published
2022

42. Bariatric Surgery for Patients with Overweight/Obesity. A Comprehensive Grading Methodology and Network Metanalysis of Randomized Controlled Trials on Weight Loss Outcomes and Adverse Events

Author

De Luca, Maurizio, Zese, Monica, Silverii, Giovanni Antonio, Ragghianti, Benedetta, Bandini, Giulia, Forestieri, Pietro, Zappa, Marco Antonio, Navarra, Giuseppe, Foschi, Diego, Musella, Mario, Sarro, Giuliano, Pilone, Vincenzo, Facchiano, Enrico, Foletto, Mirto, Olmi, Stefano, Raffelli, Marco, Bellini, Rosario, Gentileschi, Paolo, Cerbone, Maria Rosaria, Grandone, Ilenia, Berardi, Giovanna, Di Lorenzo, Nicola, Lucchese, Marcello, Piazza, Luigi, Casella, Giovanni, Manno, Emilio, Zaccaroni, Alberto, Balani, Alessandro, Mannucci, Edoardo, and Monami, Matteo

Published
2023
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44. Custo anual do manejo da cardiopatia isquêmica crônica no Brasil: perspectiva pública e privada

Author

Ribeiro Rodrigo A., Mello Renato G. B., Melchior Raquel, Dill Juliana C., Hohmann Clarissa B., Lucchese Angélica M., Stein Ricardo, Ribeiro Jorge Pinto, and Polanczyk Carisi A.

Subjects
custo da doença, análise econômica, doença arterial coronariana, coorte, Diseases of the circulatory (Cardiovascular) system, RC666-701
Abstract

OBJETIVO: Estimar o custo anual do manejo da doença arterial coronária (DAC) em valores do SUS e convênios. MÉTODOS: Estudo de coorte, incluindo pacientes ambulatoriais com DAC comprovada. Considerou-se para estimar custos diretos: consultas, exames, procedimentos, internações e medicamentos. Valores de consultas e exames foram obtidos da tabela SUS e da Lista de Procedimentos Médicos (LPM). Valores de eventos cardiovasculares foram obtidos de internações em hospital público e privado com estas classificações diagnósticas em 2002. O preço dos fármacos utilizado foi o de menor custo no mercado. RESULTADOS: Os 147 pacientes (65?12 anos, 63% homens, 69% hipertensos, 35% diabéticos e 59% com IAM prévio) tiveram acompanhamento médio de 24?8 meses. O custo anual médio estimado por paciente foi de R$ 2.733,00, pelo SUS, e R$ 6.788,00, para convênios. O gasto com medicamentos ($ 1.154,00) representou 80% e 55% dos custos ambulatoriais, e 41% e 17% dos gastos totais, pelo SUS e para convênios, respectivamente. A ocorrência de evento cardiovascular teve grande impacto (R$ 4.626,00 vs. R$ 1.312,00, pelo SUS, e R$ 13.453,00 vs. R$ 1.789,00, para convênios, p

Published
2005

45. ILMART: Interpretable Ranking with Constrained LambdaMART

Author

Lucchese, Claudio, Nardini, Franco Maria, Orlando, Salvatore, Perego, Raffaele, and Veneri, Alberto

Subjects
Computer Science - Information Retrieval
Abstract

Interpretable Learning to Rank (LtR) is an emerging field within the research area of explainable AI, aiming at developing intelligible and accurate predictive models. While most of the previous research efforts focus on creating post-hoc explanations, in this paper we investigate how to train effective and intrinsically-interpretable ranking models. Developing these models is particularly challenging and it also requires finding a trade-off between ranking quality and model complexity. State-of-the-art rankers, made of either large ensembles of trees or several neural layers, exploit in fact an unlimited number of feature interactions making them black boxes. Previous approaches on intrinsically-interpretable ranking models address this issue by avoiding interactions between features thus paying a significant performance drop with respect to full-complexity models. Conversely, ILMART, our novel and interpretable LtR solution based on LambdaMART, is able to train effective and intelligible models by exploiting a limited and controlled number of pairwise feature interactions. Exhaustive and reproducible experiments conducted on three publicly-available LtR datasets show that ILMART outperforms the current state-of-the-art solution for interpretable ranking of a large margin with a gain of nDCG of up to 8%., Comment: 5 pages, 3 figures, to be published in SIGIR 2022 proceedings

Published
2022
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46. Quantum-Path-Resolved Attosecond High-Harmonic Spectroscopy

Author

Camper, Antoine, Ferré, Amélie, Blanchet, Valérie, Descamps, Dominique, Lin, Nan, Petit, Stéphane, Lucchese, Robert, Salières, Pascal, Ruchon, Thierry, and Mairesse, Yann

Subjects
Quantum Physics, Atomic, Molecular and Optical Physics, Physical Sciences, Biotechnology, Mathematical Sciences, Engineering, General Physics, Mathematical sciences, Physical sciences
Abstract

Strong-field ionization of molecules releases electrons which can be accelerated and driven back to recombine with their parent ion, emitting high-order harmonics. This ionization also initiates attosecond electronic and vibrational dynamics in the ion, evolving during the electron travel in the continuum. Revealing this subcycle dynamics from the emitted radiation usually requires advanced theoretical modeling. We show that this can be avoided by resolving the emission from two families of electronic quantum paths in the generation process. The corresponding electrons have the same kinetic energy, and thus the same structural sensitivity, but differ by the travel time between ionization and recombination-the pump-probe delay in this attosecond self-probing scheme. We measure the harmonic amplitude and phase in aligned CO_{2} and N_{2} molecules and observe a strong influence of laser-induced dynamics on two characteristic spectroscopic features: a shape resonance and multichannel interference. This quantum-path-resolved spectroscopy thus opens wide prospects for the investigation of ultrafast ionic dynamics, such as charge migration.

Published
2023

47. Strongly coupled intermediate electronic states in one-color two-photon single valence ionization of O2

Author

Larsen, Kirk A, Bello, Roger Y, Lucchese, Robert R, McCurdy, C William, Slaughter, Daniel S, and Weber, Thorsten

Subjects
Physical Sciences, Chemical Sciences, Atomic, Molecular and Optical Physics, Physical Chemistry, CSD-1-AMOS-A, CSD-45-Featured, CSD-31-FY23, Engineering, Chemical Physics, Chemical sciences, Physical sciences
Abstract

We present an experimental and theoretical energy- and angle-resolved investigation on the non-dissociative photoionization dynamics of near-resonant, one-color, two-photon, single valence ionization of neutral O2 molecules. Using 9.3 eV femtosecond pulses produced via high harmonic generation and a 3-D momentum imaging spectrometer, we detect the photoelectrons and O2 + cations produced from one-color, two-photon ionization in coincidence. The measured and calculated photoelectron angular distributions show agreement, which indicates that a superposition of two intermediate electronic states is dominantly involved and that wavepacket motion on those near-resonantly populated intermediate states does not play a significant role in the measured two-photon ionization dynamics. Here, we find greater utility in the diabatic representation compared to the adiabatic representation, where invoking a single valence-character diabat is sufficient to describe the underlying two-photon ionization mechanism.

Published
2023

48. Filming enhanced ionization in an ultrafast triatomic slingshot

Author

Howard, Andrew J, Britton, Mathew, Streeter, Zachary L, Cheng, Chuan, Forbes, Ruaridh, Reynolds, Joshua L, Allum, Felix, McCracken, Gregory A, Gabalski, Ian, Lucchese, Robert R, McCurdy, C William, Weinacht, Thomas, and Bucksbaum, Philip H

Subjects
Chemical Sciences, Physical Chemistry, CSD-46-All CSGB, CSD-01-AMOS-A, Chemical sciences
Abstract

Filming atomic motion within molecules is an active pursuit of molecular physics and quantum chemistry. A promising method is laser-induced Coulomb Explosion Imaging (CEI) where a laser pulse rapidly ionizes many electrons from a molecule, causing the remaining ions to undergo Coulomb repulsion. The ion momenta are used to reconstruct the molecular geometry which is tracked over time (i.e., filmed) by ionizing at an adjustable delay with respect to the start of interatomic motion. Results are distorted, however, by ultrafast motion during the ionizing pulse. We studied this effect in water and filmed the rapid "slingshot" motion that enhances ionization and distorts CEI results. Our investigation uncovered both the geometry and mechanism of the enhancement which may inform CEI experiments in many other polyatomic molecules.

Published
2023

49. State-selective probing of CO2 autoionizing inner valence Rydberg states with attosecond extreme ultraviolet four-wave-mixing spectroscopy

Author

Fidler, Ashley P, Lin, Yen-Cheng, Gaynor, James D, McCurdy, C William, Leone, Stephen R, Lucchese, Robert R, and Neumark, Daniel M

Subjects
Physical Sciences, Chemical Sciences, Atomic, Molecular and Optical Physics, Physical Chemistry, CSD-1-AMOS-A, CSD-31-FY23, CSD-45-Featured, Chemical sciences, Mathematical sciences, Physical sciences
Abstract

Nonlinear spectroscopies can disentangle spectra that are congested due to inhomogeneous broadening. In conjunction with theoretical calculations, attosecond extreme ultraviolet (XUV) four-wave-mixing (FWM) spectroscopy is utilized here to probe the dynamics of autoionizing inner valence excited Rydberg states of the polyatomic molecule, CO2. This tabletop nonlinear technique employs a short attosecond XUV pulse train and two noncollinear, few-cycle near-infrared pulses to generate background-free XUV wave-mixing signals. FWM emission is observed from the n=5-7 states of the Henning sharp ndσg Rydberg series that converges to the ionic Bςu+2 state. However, these transient emission signals decay with lifetimes of 33 ± 6, 53 ± 2, and 94 ± 2 fs, respectively, which calculations show are consistent with the lifetimes of the short-lived n=6-8 members of the nsσg character Henning diffuse Rydberg series. The oscillator strengths of transitions between states involved in all possible resonant FWM processes are calculated, verifying that the nonlinear spectra are dominated by pathways described by an initial excitation to the diffuse nsσg Rydberg series and emission from the sharp ndσg Rydberg series. The results substantiate not only that attosecond XUV FWM spectroscopy produces rigorous and meaningful measurements of ultrafast dynamics in polyatomic systems, but also that nonlinear spectroscopic techniques are versatile tools to selectively probe dynamics that are otherwise difficult to access.

Published
2022

50. Integração de tecnologias educativas digitais em website sobre cuidados domiciliares com recém-nascidos: relato de experiência

Author

Fernanda Garcia Bezerra Góes, Gabrielle Beltrão de Oliveira, Iasmym Alves de Andrade Soares, Nátale Gabriele Ferreira Nunes, Ingrid Lucchese, and Mariana Viana Toledo

Subjects
Recém-Nascido, Tecnologia, Saúde Digital, Serviços de Assistência Domiciliar, Educação em Saúde, Medicine, Nursing, RT1-120
Abstract

Objetivo: descrever a experiência no desenvolvimento e integração de tecnologias educativas digitais em saúde em um website voltado para os cuidados domiciliares com recém-nascidos. Método: relato de experiência sistematizado em cinco tempos (ponto de partida, perguntas iniciais, recuperação do processo vivido, reflexão de fundo e pontos de chegada), no período de 2020 a 2024. Concentrou-se no desenvolvimento de tecnologias educativas digitais em um projeto de pesquisa e desenvolvimento tecnológico e social vinculado à extensão universitária. Resultados: o desenvolvimento das tecnologias digitais envolveu a construção, validação e avaliação de dois vídeos animados, dois aplicativos móveis, uma cartilha, vinte e dois podcasts e um website que integrou as 28 tecnologias produzidas. Conclusão: a experiência foi inovadora, promissora e relevante. A abordagem multifacetada e integradora reflete uma diversidade de estratégias para atender às necessidades educativas das famílias, demonstrando ser efetiva na disseminação de informações.

Published
2024
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