1,438 results on '"Genovese M."'
Search Results
2. Efficient fabrication of high-density ensembles of color centers via ion implantation on a hot diamond substrate
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Hernandez, E. Nieto, Andrini, G., Crnjac, A., Brajkovic, M., Picariello, F., Corte, E., Pugliese, V., Matijević, M., Aprà, P., Varzi, V., Forneris, J., Genovese, M., Siketic, Z., Jaksic, M., and Tchernij, S. Ditalia
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Condensed Matter - Materials Science ,Quantum Physics - Abstract
Nitrogen-Vacancy (NV) centers in diamond are promising systems for quantum technologies, including quantum metrology and sensing. A promising strategy for the achievement of high sensitivity to external fields relies on the exploitation of large ensembles of NV centers, whose fabrication by ion implantation is upper limited by the amount of radiation damage introduced in the diamond lattice. In this works we demonstrate an approach to increase the density of NV centers upon the high-fluence implantation of MeV N2+ ions on a hot target substrate (>550 {\deg}C). Our results show that, with respect to room-temperature implantation, the high-temperature process increases the vacancy density threshold required for the irreversible conversion of diamond to a graphitic phase, thus enabling to achieve higher density ensembles. Furthermore, the formation efficiency of color centers was investigated on diamond substrates implanted at varying temperatures with MeV N2+ and Mg+ ions revealing that the formation efficiency of both NV centers and magnesium-vacancy (MgV) centers increases with the implantation temperature., Comment: 12 pages, 5 figures
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- 2023
3. Efficient activation of telecom emitters in silicon upon ns pulsed laser annealing
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Andrini, G., Zanelli, G., Tchernij, S. Ditalia, Corte, E., Hernandez, E. Nieto, Verna, A., Cocuzza, M., Bernardi, E., Virzì, S., Traina, P., Degiovanni, I. P., Genovese, M., Olivero, P., and Forneris, J.
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Physics - Applied Physics ,Physics - Optics ,Quantum Physics - Abstract
The recent demonstration of optically active telecom emitters makes silicon a compelling candidate for solid state quantum photonic platforms. Particularly fabrication of the G center has been demonstrated in carbon-rich silicon upon conventional thermal annealing. However, the high-yield controlled fabrication of these emitters at the wafer-scale still requires the identification of a suitable thermodynamic pathway enabling its activation following ion implantation. Here we demonstrate the efficient activation of G centers in high-purity silicon substrates upon ns pulsed laser annealing. The proposed method enables the non-invasive, localized activation of G centers by the supply of short non-stationary pulses, thus overcoming the limitations of conventional rapid thermal annealing related to the structural metastability of the emitters. A finite-element analysis highlights the strong non-stationarity of the technique, offering radically different defect-engineering capabilities with respect to conventional longer thermal treatments, paving the way to the direct and controlled fabrication of emitters embedded in integrated photonic circuits and waveguides.
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- 2023
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4. Applications – Transportation | Auxiliary power units: Fuel cells
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Genovese, M., primary, Cigolotti, V., additional, Monteleone, G., additional, Piraino, F., additional, Corigliano, O., additional, and Fragiacomo, P., additional
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- 2024
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5. Author Correction: Selecting, Adapting and Implementing Classroom Kernels for Student Social and Emotional Development and Resilience in Local Elementary Schools: A Community–University Partnership Approach
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Ouellette, R. R., Strambler, M. J., Genovese, M. A., Selino, S., Joyner, L., Sevin, S., Granzow, E., and Connors, E. H.
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- 2024
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6. Nanodiamond quantum sensors reveal temperature variation associated to hippocampal neurons firing
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Petrini, G., Tomagra, G., Bernardi, E., Moreva, E., Traina, P., Marcantoni, A., Picollo, F., Kvakova, K., Cigler, P., Degiovanni, I. P., Carabelli, V., and Genovese, M.
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Quantitative Biology - Neurons and Cognition ,Quantum Physics - Abstract
Temperature is one of the most relevant parameters for the regulation of intracellular processes. Measuring localized subcellular temperature gradients is fundamental for a deeper understanding of cell function, such as the genesis of action potentials, and cell metabolism. Here, we detect for the first time temperature variations (1{\deg}C) associated with potentiation and depletion of neuronal firing, exploiting a nanoscale thermometer based on optically detected magnetic resonance in nanodiamonds. Our results provide a tool for assessing neuronal spiking activity under physiological and pathological conditions and, conjugated with the high sensitivity of this technique (in perspective sensitive to < 0.1{\deg}C variations), pave the way to a systematic study of the generation of localized temperature gradients. Furthermore, they prompt further studies explaining in detail the physiological mechanism originating this effect., Comment: 27 pages, 5 figures, 3 tables
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- 2022
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7. Overcoming classical measurement limits through entanglement in photon number: an introduction
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Genovese M., Adenier G., Calonico D., Degiovanni I. P., Micalizio S., Ruo Berchera I., and Traina P.
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Physics ,QC1-999 - Abstract
We discuss the recent developments in exploiting Quantum Optical Correlations in order to overcome the classical limits on measurement. After a general introduction to the argument, we will consider in detail some specific and emblematic protocols, and focus in particular on applications to the holometer.
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- 2015
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8. Collagen Type IV Alpha 5 Chain in Bronchiolitis Obliterans Syndrome After Lung Transplant: The First Evidence
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Armati, M., Cattelan, S., Guerrieri, M., Messina, M., Perea, B., Genovese, M., and d'Alessandro, M.
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Transplantation of organs, tissues, etc. -- Research -- Health aspects -- Analysis ,Collagen -- Research -- Analysis -- Health aspects ,Enzyme-linked immunosorbent assay -- Research -- Health aspects -- Analysis ,Health - Abstract
Introduction Bronchiolitis obliterans syndrome (BOS) is the most common form of CLAD and is characterized by airflow limitation and an obstructive spirometry pattern without parenchymal opacities. The protein signature of BOS lesions concerns extracellular matrix organization and aberrant basement membrane composition. In this pilot study, we investigated the presence of COL4A5 in the serum of patients with BOS. Methods 41 patients who had undergone LTX were enrolled. Of these, 27 developed BOS and 14 (control group) were considered stable at the time of serum sampling. Of BOS patients, serum samples were analysed at the time of BOS diagnosis and before the clinical diagnosis (pre-BOS). COL4A5 levels were detected through the ELISA kit. Results Serum concentrations of COL4A5 were higher in pre-BOS than in stable patients (40.5 ± 13.9 and 24.8 ± 11.4, respectively, p = 0.048). This protein is not influenced by comorbidities, such as acute rejection or infections, or by therapies. Survival analysis also reveals that a higher level of COL4A5 was also associated with less probability of survival. Our data showed a correlation between concentrations of COL4A5 and FEV1 at the time of diagnosis of BOS. Conclusion Serum concentrations of COL4A5 can be considered a good prognostic marker due to their association with survival and correlation with functional parameters., Author(s): M. Armati [sup.1], S. Cattelan [sup.1], M. Guerrieri [sup.1], M. Messina [sup.1], B. Perea [sup.1], M. Genovese [sup.2], M. d'Alessandro [sup.1], S. Gangi [sup.1], P. Cameli, F. Perillo [sup.1], [...]
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- 2023
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9. Anomalous weak values via a single photon detection
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Rebufello, E., Piacentini, F., Avella, A., de Souza, M. A., Gramegna, M., Dziewior, J., Cohen, E., Vaidman, L., Degiovanni, I. P., and Genovese, M.
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Quantum Physics - Abstract
Is it possible that a measurement of a spin component of a spin-1/2 particle yields the value 100? In 1988 Aharonov, Albert and Vaidman argued that upon pre- and postselection of particular spin states, weakening the coupling of a standard measurement procedure ensures this paradoxical result. This theoretical prediction, called weak value, was realized in numerous experiments, but its meaning remains very controversial, since its "anomalous" nature, i.e. the possibility to exceed the eigenvalues range, as well as its "quantumness" are debated. We address these questions by presenting the first experiment measuring anomalous weak values with just a single click, without any statistics. The measurement uncertainty is significantly smaller than the gap between the measured weak value and the nearest eigenvalue. Beyond clarifying the meaning of weak values, this result represents a breakthrough in understanding quantum measurement foundations, paving the way to further applications of weak values to quantum photonics., Comment: Revised version to appear in Light: Science & Applications
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- 2021
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10. 3E analysis of a virtual hydrogen valley supported by railway-based H2 delivery for multi-transportation service
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Genovese, M., Piraino, F., and Fragiacomo, P.
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- 2024
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11. Fluorine-based color centers in diamond
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Tchernij, S. Ditalia, Lühmann, T., Corte, E., Sardi, F., Picollo, F., Traina, P., Brajkovic, M., Crnjac, A., Pezzagna, S., Degiovanni, I. P., Moreva, E., Aprà, P., Olivero, P., Siketić, Z., Meijer, J., Genovese, M., and Forneris, J.
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Condensed Matter - Materials Science ,Physics - Applied Physics ,Quantum Physics - Abstract
We report on the creation and characterization of the luminescence properties of high-purity diamond substrates upon F ion implantation and subsequent thermal annealing. Their room-temperature photoluminescence emission consists of a weak emission line at 558 nm and of intense bands in the 600 - 750 nm spectral range. Characterization at liquid He temperature reveals the presence of a structured set of lines in the 600 - 670 nm spectral range. We discuss the dependence of the emission properties of F-related optical centers on different experimental parameters such as the operating temperature and the excitation wavelength. The correlation of the emission intensity with F implantation fluence, and the exclusive observation of the afore-mentioned spectral features in F-implanted and annealed samples provides a strong indication that the observed emission features are related to a stable F-containing defective complex in the diamond lattice., Comment: 10 pages, 5 figures
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- 2020
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12. Biocompatible technique for nanoscale magnetic field sensing with Nitrogen-Vacancy centers
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Bernardi, Ettore, Moreva, Ekaterina, Traina, Paolo, Petrini, Giulia, Tchernij, Sviatoslav Ditalia, Forneris, Jacopo, Pastuovic, Zelijko, Degiovanni, Ivo Pietro, Olivero, Paolo, and Genovese, M.
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Physics - Applied Physics ,Quantum Physics - Abstract
The possibility of using Nitrogen-vacancy centers in diamonds to measure nanoscale magnetic fields with unprecedented sensitivity is one of the most significant achievements of quantum sensing. Here we present an innovative experimental set-up, showing an achieved sensitivity comparable to the state of the art ODMR protocols if the sensing volume is taken into account. The apparatus allows magnetic sensing in biological samples such as individual cells, as it is characterized by a small sensing volume and full bio-compatibility. The sensitivity at different optical powers is studied to extend this technique to the intercellular scale., Comment: 6 pages, 5 figures
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- 2020
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13. Improving resolution-sensitivity trade off in sub-shot noise imaging
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Berchera, I. Ruo, Meda, A., Losero, E., Avella, A., Samantaray, N., and Genovese, M.
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Quantum Physics ,Physics - Optics - Abstract
One of the challenges of quantum technologies is realising the quantum advantage, predicted for ideal systems, in real applications, which have to cope with decoherence and inefficiencies. In quantum metrology, sub-shot-noise imaging (SSNI) and sensing methods can provide genuine quantum enhancement in realistic situations. However, wide field SSNI schemes realized so far suffer a trade-off between the resolution and the sensitivity gain over classical counterpart: small pixels or integrating area, are necessary to achieve high imaging resolution, but larger pixels allow a better detection efficiency of quantum correlations, which means a larger quantum advantage. Here we show how the SSNI protocol can be optimized to significantly improve the resolution without giving up the quantum advantage in the sensitivity. We show a linear resolution improvement (up to a factor 3) with respect to the simple protocol used in previous demonstrations.
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- 2020
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14. Non-monogamy of spatio-temporal correlations and the black hole information loss paradox
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Marletto, C., Vedral, V., Virzì, S., Rebufello, E., Avella, A., Piacentini, F., Gramegna, M., Degiovanni, I., and Genovese, M.
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General Relativity and Quantum Cosmology ,Quantum Physics - Abstract
Pseudo-density matrices are a generalisation of quantum states and do not obey monogamy of quantum correlations. Could this be the solution to the paradox of information loss during the evaporation of a black hole? In this paper we discuss this possibility, providing a theoretical proposal to extend quantum theory with these pseudo-states to describe the statistics arising in black-hole evaporation. We also provide an experimental demonstration of this theoretical proposal, using a simulation in optical regime, that tomographically reproduces the correlations of the pseudo-density matrix describing this physical phenomenon.
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- 2020
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15. Practical applications of quantum sensing: a simple method to enhance sensitivity of Nitrogen-Vacancy-based temperature sensors
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Moreva, E., Bernardi, E., Traina, P., Sosso, A., Tchernij, S. Ditalia, Forneris, J., Picollo, F., Brida, G., Pastuovic, Z., Degiovanni, I. P., Olivero, P., and Genovese, M.
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Quantum Physics ,Physics - Applied Physics - Abstract
Nitrogen-vacancy centers in diamond allow measurement of environment properties such as temperature, magnetic and electric fields at nanoscale level, of utmost relevance for several research fields, ranging from nanotechnologies to bio-sensing. The working principle is based on the measurement of the resonance frequency shift of a single nitrogen-vacancy center (or an ensemble of them), usually detected by by monitoring the center photoluminescence emission intensity. Albeit several schemes have already been proposed, the search for the simplest and most effective one is of key relevance for real applications. Here we present a new continuous-wave lock-in based technique able to reach unprecedented sensitivity in temperature measurement at micro/nanoscale volumes (4.8 mK/Hz$^{1/2}$ in $\mu$m$^3$). Furthermore, the present method has the advantage of being insensitive to the enviromental magnetic noise, that in general introduces a bias in the temperature measurement.
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- 2019
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16. Theoretical description and experimental simulation of quantum entanglement near open time-like curves via pseudo-density operators
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Marletto, C., Vedral, V., Virzì, S., Rebufello, E., Avella, A., Piacentini, F., Gramegna, M., Degiovanni, I. P., and Genovese, M.
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Quantum Physics - Abstract
Closed timelike curves are striking predictions of general relativity allowing for time-travel. They are afflicted by notorious causality issues (e.g. grandfather's paradox). Quantum models where a qubit travels back in time solve these problems, at the cost of violating quantum theory's linearity - leading e.g. to universal quantum cloning. Interestingly, linearity is violated even by open timelike curves (OTCs), where the qubit does not interact with its past copy, but is initially entangled with another qubit. Non-linear dynamics is needed to avoid violating entanglement monogamy. Here we propose an alternative approach to OTCs, allowing for monogamy violations. Specifically, we describe the qubit in the OTC via a pseudo-density operator - a unified descriptor of both temporal and spatial correlations. We also simulate the monogamy violation with polarization-entangled photons, providing a pseudo-density operator quantum tomography. Remarkably, our proposal applies to any space-time correlations violating entanglement monogamy, such as those arising in black holes.
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- 2019
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17. Dark matter search in a Beam-Dump eXperiment (BDX) at Jefferson Lab -- 2018 update to PR12-16-001
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Battaglieri, M., Bersani, A., Bracco, G., Caiffi, B., Celentano, A., De Vita, R., Marsicano, L., Musico, P., Panza, F., Ripani, M., Santopinto, E., Taiuti, M., Bellini, V., Bondi', M., Castorina, P., De Napoli, M., Italiano, A., Kuznetzov, V., Leonora, E., Mammoliti, F., Randazzo, N., Re, L., Russo, G., Russo, M., Shahinyan, A., Sperduto, M., Spinali, S., Sutera, C., Tortorici, F., Baltzell, N., Dalton, M., Freyberger, A., Girod, F. -X., Kharashvili, G., Kubarovsky, V., Pasyuk, E., Smith, E. S., Stepanyan, S., Szumilla-Vance, H., Ungaro, M., Whitlatch, T., Izaguirre, E., Krnjaic, G., Ehle, I., Snowden-Ifft, D., Loomba, D., Carpinelli, M., D'Urso, D., Gabrieli, A., Maccioni, G., Sant, M., Sipala, V., Ameli, F., Cisbani, E., De Persio, F., Del Dotto, A., Garibaldi, F., Meddi, F., Nicolau, C. A., Urciuoli, G. M., Chiarusi, T., Manzali, M., Pellegrino, C., Schuster, P., Toro, N., Essig, R., Wood, M. H., Holtrop., M., Paremuzyan, R., De Cataldo, G., De Leo, R., Di Bari, D., Lagamba, L., Nappi, E., Perrino, R., Balossino, I., Barion, L., Ciullo, G., Contalbrigo, M., Drago, A., Lenisa, P., Movsisyan, A., Pappalardo, L., Spizzo, F., Turisini, M., Hasch, D., Lucherini, V., Mirazita, M., Pisano, S., Rossi, P., Tomassini, S., Simi, G., D'Angelo, A., Lanza, L., Rizzo, A., Filippi, A., Genovese, M., Kunkel, M., Bashkanov, M., Murphy, A., Smith, G., Watts, D., Zachariou, N., Zana, L., Glazier, D., Ireland, D., McKinnon, B., Sokhan, D., Colaneri, L., Pereira, S. Anefalos, Afanasev, A., Briscoe, B., Strakovsky, I., Kalantarians, N., Weinstein, L., Adhikari, K. P., Dunne, J. A., Dutta, D., Fassi, L. El, Ye, L., Hicks, K., Cole, P., Dobbs, S., Fanelli, C., and Mohanmurthy, P.
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Physics - Instrumentation and Detectors ,High Energy Physics - Experiment - Abstract
This document complements and completes what was submitted last year to PAC45 as an update to the proposal PR12-16-001 "Dark matter search in a Beam-Dump eXperiment (BDX)" at Jefferson Lab submitted to JLab-PAC44 in 2016. Following the suggestions contained in the PAC45 report, in coordination with the lab, we ran a test to assess the beam-related backgrounds and validate the simulation framework used to design the BDX experiment. Using a common Monte Carlo framework for the test and the proposed experiment, we optimized the selection cuts to maximize the reach considering simultaneously the signal, cosmic-ray background (assessed in Catania test with BDX-Proto) and beam-related backgrounds (irreducible NC and CC neutrino interactions as determined by simulation). Our results confirmed what was presented in the original proposal: with 285 days of a parasitic run at 65 $\mu$A (corresponding to $10^{22}$ EOT) the BDX experiment will lower the exclusion limits in the case of no signal by one to two orders of magnitude in the parameter space of dark-matter coupling versus mass.
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- 2019
18. Rumen microbial community and milk quality in Holstein lactating cows fed olive oil pomace as part in a sustainable feeding strategy
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Scicutella, F., Cucu, M.A., Mannelli, F., Pastorelli, R., Daghio, M., Paoli, P., Pazzagli, L., Turini, L., Mantino, A., Luti, S., Genovese, M., Viti, C., and Buccioni, A.
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- 2023
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19. Hydrogen refueling station: Overview of the technological status and research enhancement
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Genovese, M. and Fragiacomo, P.
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- 2023
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20. Twin beam quantum-enhanced correlated interferometry for testing fundamental physics
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Pradyumna, S. T., Losero, E., Ruo-Berchera, I., Traina, P., Zucco, M., Jacobsen, C. S., Andersen, U. L., Degiovanni, I. P., Genovese, M., and Gehring, T.
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Quantum Physics - Abstract
Quantum metrology deals with improving the resolution of instruments that are otherwise limited by shot noise and it is therefore a promising avenue for enabling scientific breakthroughs. The advantage can be even more striking when quantum enhancement is combined with correlation techniques among several devices. Here, we present and realize a correlation interferometry scheme exploiting bipartite quantum correlated states injected in two independent interferometers. The scheme outperforms classical analogues in detecting a faint signal that may be correlated/uncorrelated between the two devices. We also compare its sensitivity with that obtained for a pair of two independent squeezed modes, each addressed to one interferometer, for detecting a correlated stochastic signal in the MHz frequency band. Being the simpler solution, it may eventually find application to fundamental physics tests, e.g., searching for the effects predicted by some Planck scale theories.
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- 2018
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21. Towards a standard procedure for the measurement of the multi-photon component in a CW telecom heralded single-photon source
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Rebufello, E., Piacentini, F., López, M., Kirkwood, R. A., Berchera, I. Ruo, Gramegna, M., Brida, G., Kück, S., Chunnilall, C. J., Genovese, M., and Degiovanni, I. P.
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Quantum Physics - Abstract
Single-photon sources are set to be a fundamental tool for metrological applications as well as for quantum information related technologies. Because of their upcoming widespread dissemination, the need for their characterization and standardization is becoming of the utmost relevance. Here, we illustrate a strategy to provide a quantitative estimate of the multi-photon component of a single-photon source, showing the results achieved in a pilot study for the measurement of the second order autocorrelation function $g^{(2)}$ of a low-noise CW heralded single-photon source prototype (operating at telecom wavelength $\lambda=1550$ nm) realized in INRiM. The results of this pilot study, involving PTB, NPL and INRiM, will help to build up a robust and unambiguous procedure for the characterization of the emission of a single-photon source.
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- 2018
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22. Feasibility study towards comparison of the g^(2)(0) measurement in the visible range
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Moreva, E., Traina, P., Kirkwood, R. A., López, M., Brida, G., Gramegna, M., Ruo-Berchera, I., Forneris, J., Tchernij, S. Ditalia, Olivero, P., Chunnilall, C. J., Kück, S., Genovese, M., and Degiovanni, I. P.
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Quantum Physics - Abstract
This work reports on the pilot study, performed by INRIM, NPL and PTB, on the measurement of the g^(2)(0) parameter in the visible spectral range of a test single-photon source based on a colour centre in diamond. The development of single-photon sources is of great interest to the metrology community as well as the burgeoning quantum technologies industry. Measurement of the g^(2)(0) parameter plays a vital role in characterising and understanding single-photon emission. This comparison has been conducted by each partner individually using its own equipment at INRIM laboratories, which were responsible for the operation of the source
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- 2018
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23. Photoluminescence of lead-related optical centers in single-crystal diamond
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Tchernij, S. Ditalia, Lühmann, T., Forneris, J., Herzig, T., Küpper, J., Damin, A., Santonocito, S., Traina, P., Moreva, E., Celegato, F., Pezzagna, S., Degiovanni, I. P., Jakšić, M., Genovese, M., Meijer, J., and Olivero, P.
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Condensed Matter - Materials Science ,Quantum Physics - Abstract
We report on the creation and characterization of Pb-related color centers in diamond upon ion implantation and subse- quent thermal annealing. Their optical emission in photoluminescence (PL) regime consists of an articulated spectrum with intense emission peaks at 552.1 nm and 556.8 nm, accompanied by a set of additional lines in the 535700 nm range. The attribution of the PL emission to stable Pb-based defects is corroborated by the correlation of its intensity with the implantation fluence of Pb ions, while none of the reported features is observed in reference samples implanted with C ions. Furthermore, PL measurements performed as a function of sample temperature (143-300 K range) and un- der different excitation wavelengths (532 nm, 514 nm, 405 nm) suggest that the complex spectral features observed in Pb-implanted diamond might be related to a variety of different defects and/or charge states. This work follows from previous reports on optically active centers in diamond based on group IV impurities, such as Si, Ge and Pb. In perspective, a comprehensive study of this set of defect complexes could bring significant insight on the common features involved in their formation and opto-physical properties, thus offering a solid basis for the devel- opment of a new generation of quantum-optical devices., Comment: 7 pages, 4 figures
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- 2018
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24. Nanodiamonds-induced effects on neuronal firing of mouse hippocampal microcircuits
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Guarina, L., Calorio, C., Gavello, D., Moreva, E., Traina, P., Battiato, A., Tchernij, S. Ditalia, Forneris, J., Gai, M., Picollo, F., Olivero, P., Genovese, M., Carbone, E., Marcantoni, A., and Carabelli, V.
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Quantitative Biology - Neurons and Cognition ,Physics - Biological Physics - Abstract
Fluorescent nanodiamonds (FND) are carbon-based nanomaterials that can efficiently incorporate optically active photoluminescent centers such as the nitrogen-vacancy complex, thus making them promising candidates as optical biolabels and drug-delivery agents. FNDs exhibit bright fluorescence without photobleaching combined with high uptake rate and low cytotoxicity. Focusing on FNDs interference with neuronal function, here we examined their effect on cultured hippocampal neurons, monitoring the whole network development as well as the electrophysiological properties of single neurons. We observed that FNDs drastically decreased the frequency of inhibitory (from 1.81 Hz to 0.86 Hz) and excitatory (from 1.61 Hz to 0.68 Hz) miniature postsynaptic currents, and consistently reduced action potential (AP) firing frequency (by 36%), as measured by microelectrode arrays. On the contrary, bursts synchronization was preserved, as well as the amplitude of spontaneous inhibitory and excitatory events. Current-clamp recordings revealed that the ratio of neurons responding with AP trains of high-frequency (fast-spiking) versus neurons responding with trains of low-frequency (slow-spiking) was unaltered, suggesting that FNDs exerted a comparable action on neuronal subpopulations. At the single cell level, rapid onset of the somatic AP ("kink") was drastically reduced in FND-treated neurons, suggesting a reduced contribution of axonal and dendritic components while preserving neuronal excitability., Comment: 34 pages, 9 figures
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- 2018
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25. Dark matter search in a Beam-Dump eXperiment (BDX) at Jefferson Lab: an update on PR12-16-001
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Battaglieri, M., Bersani, A., Bracco, G., Caiffi, B., Celentano, A., De Vita, R., Marsicano, L., Musico, P., Osipenko, M., Panza, F., Ripani, M., Santopinto, E., Taiuti, M., Bellini, V., Bondi', M., Castorina, P., De Napoli, M., Italiano, A., Kuznetzov, V., Leonora, E., Mammoliti, F., Randazzo, N., Re, L., Russo, G., Russo, M., Shahinyan, A., Sperduto, M., Spinali, S., Sutera, C., Tortorici, F., Baltzell, N., Dalton, M., Freyberger, A., Girod, F. -X., Kharashvili, G., Kubarovsky, V., Pasyuk, E., Smith, E. S., Stepanyan, S., Ungaro, M., Whitlatch, T., Izaguirre, E., Krnjaic, G., Snowden-Ifft, D., Loomba, D., Carpinelli, M., D'Urso, D., Gabrieli, A., Maccioni, G., Sant, M., Sipala, V., Ameli, F., Cisbani, E., De Persio, F., Del Dotto, A., Garibaldi, F., Meddi, F., Nicolau, C. A., Urciuoli, G. M., Chiarusi, T., Manzali, M., Pellegrino, C., Schuster, P., Toro, N., Essig, R., Wood, M. H., Paremuzyan, M. Holtrop. R., De Cataldo, G., De Leo, R., Di Bari, D., Lagamba, L., Nappi, E., Perrino, R., Balossino, I., Barion, L., Ciullo, G., Contalbrigo, M., Drago, A., Lenisa, P., Movsisyan, A., Pappalardo, L., Spizzo, F., Turisini, M., Hasch, D., Lucherini, V., Mirazita, M., Pisano, S., Rossi, P., Tomassini, S., Simi, G., D'Angelo, A., Lanza, L., Rizzo, A., Schaerf, C., Zonta, I., Filippi, A., Genovese, M., Fegan, S., Kunkel, M., Bashkanov, M., Murphy, A., Smith, G., Watts, D., Zachariou, N., Zana, L., Glazier, D., Ireland, D., McKinnon, B., Sokhan, D., Colaneri, L., Pereira, S. Anefalos, Afanasev, A., Briscoe, B., Strakovsky, I., Kalantarians, N., Weinstein, L., Adhikari, K. P., Dunne, J. A., Dutta, D., Fassi, L. El, Ye, L., Hicks, K., Cole, P., Dobbs, S., Fanelli, C., and Murthy, P. T. M.
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Physics - Instrumentation and Detectors ,High Energy Physics - Experiment - Abstract
This document is an update to the proposal PR12-16-001 Dark matter search in a Beam-Dump eXperiment (BDX) at Jefferson Lab submitted to JLab-PAC44 in 2016 reporting progress in addressing questions raised regarding the beam-on backgrounds. The concerns are addressed by adopting a new simulation tool, FLUKA, and planning measurements of muon fluxes from the dump with its existing shielding around the dump. First, we have implemented the detailed BDX experimental geometry into a FLUKA simulation, in consultation with experts from the JLab Radiation Control Group. The FLUKA simulation has been compared directly to our GEANT4 simulations and shown to agree in regions of validity. The FLUKA interaction package, with a tuned set of biasing weights, is naturally able to generate reliable particle distributions with very small probabilities and therefore predict rates at the detector location beyond the planned shielding around the beam dump. Second, we have developed a plan to conduct measurements of the muon ux from the Hall-A dump in its current configuration to validate our simulations., Comment: Document submitted to JLab PAC 45
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- 2017
26. Photo-physical properties of He-related color centers in diamond
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Prestopino, G., Marinelli, M., Milani, E., Verona, C., Traina, G. Verona-Rinati P., Moreva, E., Degiovanni, I. P., Genovese, M., Tchernij, S. Ditalia, Picollo, F., Olivero, P., and Forneris, J.
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Condensed Matter - Materials Science ,Quantum Physics - Abstract
Diamond is a promising platform for the development of technological applications in quantum optics and photonics. The quest for color centers with optimal photo-physical properties has led in recent years to the search for novel impurity-related defects in this material. Here, we report on a systematic investigation of the photo-physical properties of two He-related (HR) emission lines at 535 nm and 560 nm created in three different diamond substrates upon implantation with 1.3 MeV He+ ions and subsequent annealing. The spectral features of the HR centers were studied in an "optical grade" diamond substrate as a function of several physical parameters, namely the measurement temperature, the excitation wavelength and the intensity of external electric fields. The emission lifetimes of the 535 nm and 560 nm lines were also measured by means of time-gated photoluminescence measurements, yielding characteristic decay times of (29 +- 5) ns and (106 +- 10) ns, respectively. The Stark shifting of the HR centers under the application of an external electrical field was observed in a CVD diamond film equipped with buried graphitic electrodes, suggesting a lack of inversion symmetry in the defects' structure. Furthermore, the photoluminescence mapping under 405 nm excitation of a "detector grade" diamond sample implanted at a 1x1010 cm-2 He+ ion fluence enabled to identify the spectral features of both the HR emission lines from the same localized optical spots. The reported results provide a first insight towards the understanding of the structure of He-related defects in diamond and their possible utilization in practical applications, Comment: 9 pages, 3 figures
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- 2017
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27. Single-photon-emitting optical centers in diamond fabricated upon Sn implantation
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Tchernij, S. Ditalia, Herzig, T., Forneris, J., Küpper, J., Pezzagna, S., Traina, P., Moreva, E., Degiovanni, I. P., Brida, G., Skukan, N., Genovese, M., Jakšić, M., Meijer, J., and Olivero, P.
- Subjects
Quantum Physics ,Condensed Matter - Materials Science - Abstract
The fabrication of luminescent defects in single-crystal diamond upon Sn implantation and annealing is reported. The relevant spectral features of the optical centers (emission peaks at 593.5 nm, 620.3 nm, 630.7 nm and 646.7 nm) are attributed to Sn-related defects through the correlation of their photoluminescence (PL) intensity with the implantation fluence. Single Sn-related defects were identified and characterized through the acquisition of their second-order auto-correlation emission functions, by means of Hanbury-Brown-Twiss interferometry. The investigation of their single-photon emission regime as a function of excitation laser power revealed that Sn-related defects are based on three-level systems with a 6 ns radiative decay lifetime. In a fraction of the studied centers, the observation of a blinking PL emission is indicative of the existence of a dark state. Furthermore, absorption dependence from the polarization of the excitation radiation with about 45 percent contrast was measured. This work shed light on the existence of a new optical center associated with a group-IV impurity in diamond, with similar photo-physical properties to the already well-known Si-V and Ge-V emitters, thus providing results of interest from both the fundamental and applicative points of view., Comment: 10 pages, 4 figures
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- 2017
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28. Determining the Quantum Expectation Value by Measuring a Single Photon
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Piacentini, F., Avella, A., Rebufello, E., Lussana, R., Villa, F., Tosi, A., Gramegna, M., Brida, G., Cohen, E., Vaidman, L., Degiovanni, I. P., and Genovese, M.
- Subjects
Quantum Physics - Abstract
Quantum mechanics, one of the keystones of modern physics, exhibits several peculiar properties, differentiating it from classical mechanics. One of the most intriguing is that variables might not have definite values. A complete quantum description provides only probabilities for obtaining various eigenvalues of a quantum variable. These and corresponding probabilities specify the expectation value of a physical observable, which is known to be a statistical property of an ensemble of quantum systems. In contrast to this paradigm, we demonstrate a unique method allowing to measure the expectation value of a physical variable on a single particle, namely, the polarisation of a single protected photon. This is the first realisation of quantum protective measurements., Comment: Nature Physics, in press (this version corresponds to the one initially submitted to Nature Physics)
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- 2017
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29. Mapping the local spatial charge in defective diamond by means of NV sensors - A 'self-diagnostic' concept
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Forneris, J., Tchernij, S. Ditalia, Traina, P., Moreva, E., Skukan, N., Jakšić, M., Grilj, V., Croin, L., Amato, G., Degiovanni, I. P., Naydenov, B., Jelezko, F., Genovese, M., and Olivero, P.
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Condensed Matter - Materials Science ,Quantum Physics - Abstract
Electrically-active defects have a significant impact on the performance of electronic devices based on wide band-gap materials such as diamond. This issue is ubiquitous in diamond science and technology, since the presence of charge traps in the active regions of different classes of diamond-based devices (detectors, power diodes, transistors) can significantly affect their performances, due to the formation of space charge, memory effects and the degradation of the electronic response associated with radiation damage. Among the most common defects in diamond, the nitrogen-vacancy (NV) center possesses unique spin properties which enable high-sensitivity field sensing at the nanoscale. Here we demonstrate that NV ensembles can be successfully exploited to perform a direct local mapping of the internal electric field distribution of a graphite-diamond-graphite junction exhibiting electrical properties dominated by trap- and space-charge-related conduction mechanisms. By performing optically-detected magnetic resonance measurements, we performed both punctual readout and spatial mapping of the electric field in the active region at different bias voltages. In this novel "self-diagnostic" approach, defect complexes represent not only the source of detrimental space charge effects, but also a unique tool to directly investigate them, by providing experimental evidences on the conduction mechanisms that in previous studies could only be indirectly inferred on the basis of conventional electrical and optical characterization.
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- 2017
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30. Direct experimental observation of nonclassicality in ensembles of single photon emitters
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Moreva, E., Traina, P., Forneris, J., Degiovanni, I. P., Tchernij, S. Ditalia, Picollo, F., Brida, G., Olivero, P., and Genovese, M.
- Subjects
Quantum Physics - Abstract
In this work we experimentally demonstrate for the first time a recently proposed criterion adressed to detect nonclassical behavior in the fluorescence emission of ensembles of single-photon emitters. In particular, we apply the method to study clusters of NV centres in diamond observed via single-photon-sensitive confocal microscopy. Theoretical considerations on the behavior of the parameter at any arbitrary order in presence of poissonian noise are presented and, finally, the opportunity of detecting manifold coincidences is discussed.
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- 2017
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31. Detection efficiency characterization for free-space single-photon detectors: Measurement facility and wavelength-dependence investigation.
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Virzì, S., Meda, A., Redolfi, E., Gramegna, M., Brida, G., Genovese, M., and Degiovanni, I. P.
- Abstract
In this paper, we present an experimental apparatus for the measurement of the detection efficiency of free-space single-photon detectors based on the substitution method. We extend the analysis to account for the wavelength dependence introduced by the transmissivity of the optical window in front of the detector's active area. Our method involves measuring the detector's response at different wavelengths and comparing it to a calibrated reference detector. This allows us to accurately quantify the efficiency variations due to the optical window's transmissivity. The results provide a comprehensive understanding of the wavelength-dependent efficiency, which is crucial for optimizing the performance of single-photon detectors in various applications, including quantum communication and photonics research. This characterization technique offers a significant advancement in the precision and reliability of single-photon detection efficiency measurements. [ABSTRACT FROM AUTHOR]
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- 2024
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32. Strategic Overview on Fuel Cell-Based Systems for Mobility and Electrolytic Cells for Hydrogen Production
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Fragiacomo, P., Piraino, F., Genovese, M., Corigliano, O., and Lorenzo, G. De
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- 2022
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33. Analysis, Design and Implementation of an End-to-End QKD Link
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Mondin, Marina, Daneshgaran, F., Di Stasio, F., Arnon, S., Kupferman, J., Genovese, M., Degiovanni, I., Piacentini, F., Traina, P., Meda, A., Gramegna, M., Bari, I., Khan, O., Khan, M., and Palestini, Claudio, editor
- Published
- 2020
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34. Single-photon emitters based on NIR colour centres in diamond coupled with solid immersion lenses
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Monticone, D. Gatto, Forneris, J., Levi, M., Battiato, A., Picollo, F., Olivero, P., Traina, P., Moreva, E., Enrico, E., Brida, G., Degiovanni, I. P., Genovese, M., Amato, G., and Boarino, L.
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Condensed Matter - Materials Science - Abstract
Single-photon sources represent a key enabling technology in quantum optics, and single colour centres in diamond are a promising platform to serve this purpose, due to their high quantum efficiency and photostability at room temperature. The widely studied nitrogen vacancy centres are characterized by several limitations, thus other defects have recently been considered, with a specific focus of centres emitting in the Near Infra-Red. In the present work, we report on the coupling of native near-infrared-emitting centres in high-quality single crystal diamond with Solid Immersion Lens structures fabricated by Focused Ion Beam lithography. The reported improvements in terms of light collection efficiency make the proposed system an ideal platform for the development of single-photon emitters with appealing photophysical and spectral properties., Comment: 17 pages, 5 figures
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- 2016
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35. Backflash light characterization to prevent QKD zero-error hacking
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Meda, A., Degiovanni, I. P., Tosi, A., Yuan, Z. L., Brida, G., and Genovese, M.
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Quantum Physics - Abstract
Single photon avalanche diodes (SPADs) are the most commercially diffused solution for single-photon counting in quantum key distribution (QKD) applications. However, the secondary photon emission, arising from the avalanche of charge carriers during a photon detection, may be exploited by an eavesdropper to gain information without forcing errors in the transmission key. In this paper, we characterise such backflash light in gated InGaAs/InP SPADs, and its spectral and temporal characterization for different detector models and different operating parameters. We qualitatively bound the maximum information leakage due to backflash light, and propose a solution.
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- 2016
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36. Experimental Exploration of Quantum Correlations: Discord versus Entanglement
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Moreva, E., Gramegna, M., Yurischev, M. A., and Genovese, M.
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Quantum Physics - Abstract
Quantum correlations represent a fundamental tool for studies ranging from basic science to quantum technologies. Different non-classical correlations have been identified and studied, as entanglement and discord. In view of future applications in this letter we explore experimentally the rich geometry of Bell-diagonal states, measuring the values of entanglement and discord and highlighting the effect of decoherence in real experiments., Comment: This article has been withdrawn due to the drawing up of a paper with additional upgrades and modifications. A new submission will be performed at a later stage
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- 2016
37. Experiment Investigating the Connection between Weak Values and Contextuality
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Piacentini, F., Avella, A., Levi, M. P., Lussana, R., Villa, F., Tosi, A., Zappa, F., Gramegna, M., Brida, G., Degiovanni, I. P., and Genovese, M.
- Subjects
Quantum Physics - Abstract
Weak value measurements have recently given rise to a large interest for both the possibility of measurement amplification and the chance of further quantum mechanics foundations investigation. In particular, a question emerged about weak values being proof of the incompatibility between Quantum Mechanics and Non-Contextual Hidden Variables Theories (NCHVT). A test to provide a conclusive answer to this question was given in [M. Pusey, Phys. Rev. Lett. 113, 200401 (2014)], where a theorem was derived showing the NCHVT incompatibility with the observation of anomalous weak values under specific conditions. In this paper we realize this proposal, clearly pointing out the strict connection between weak values and the contextual nature of Quantum Mechanics., Comment: 5 pages, 4 figures
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- 2016
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38. Towards a new mobility concept for regional trains and hydrogen infrastructure
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Piraino, F., Genovese, M., and Fragiacomo, P.
- Published
- 2021
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39. Measuring incompatible observables of a single photon
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Piacentini, F., Levi, M. P., Avella, A., Cohen, E., Lussana, R., Villa, F., Tosi, A., Zappa, F., Gramegna, M., Brida, G., Degiovanni, I. P., and Genovese, M.
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Quantum Physics - Abstract
One of the most intriguing aspects of Quantum Mechanics is the impossibility of measuring at the same time observables corresponding to non-commuting operators. This impossibility can be partially relaxed when considering joint or sequential weak values evaluation. Indeed, weak measurements have been a real breakthrough in the quantum measurement framework that is of the utmost interest from both a fundamental and an applicative point of view. Here we show how we realized, for the first time, a sequential weak value evaluation of two incompatible observables on a single photon., Comment: 5 pages, 3 figures
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- 2015
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40. Electroluminescence from nitrogen-vacancy and interstitial-related centers in bulk diamond stimulated by ion-beam-fabricated sub-superficial graphitic micro-electrodes
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Forneris, J., Tchernij, S. Ditalia, Battiato, A., Picollo, F., Tengattini, A., Grilj, V., Skukan, N., Amato, G., Boarino, L., Degiovanni, I. P., Enrico, E., Traina, P., Jakšić, M., Genovese, M., and Olivero, P.
- Subjects
Condensed Matter - Materials Science ,Quantum Physics - Abstract
We report on the fabrication and characterization of a single-crystal diamond device for the electrical stimula- tion of light emission from nitrogen-vacancy (NV0) and other defect-related centers. Pairs of sub-superficial graphitic micro-electrodes embedded in insulating diamond were fabricated by a 6 MeV C3+ micro-beam irra- diation followed by thermal annealing. A photoluminescence (PL) characterization evidenced a low radiation damage concentration in the inter-electrode gap region, which did not significantly affect the PL features domi- nated by NV centers. The operation of the device in electroluminescence (EL) regime was investigated by ap- plying a bias voltage at the graphitic electrodes, resulting in the injection of a high excitation current above a threshold voltage (~300V), which effectively stimulated an intense EL emission from NV0 centers. In addition, we report on the new observation of two additional sharp EL emission lines (at 563 nm and 580 nm) related to interstitial defects formed during MeV ion beam fabrication.
- Published
- 2015
41. Magneto-optical imaging technique for hostile environment: the ghost imaging approach
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Meda, A., Caprile, A., Avella, A., Berchera, I. Ruo, Degiovanni, I. P., Magni, A., and Genovese, M.
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Physics - Optics ,Quantum Physics - Abstract
We develop a new approach in magneto-optical imaging (MOI), applying for the first time a ghost imaging (GI) protocol to perform Faraday microscopy. MOI is of the utmost importance for the investigation of magnetic properties of material samples, through Weiss domains shape, dimension and dynamics analysis. Nevertheless, in some extreme conditions such as e. g. cryogenic temperatures or high magnetic fields application, there exists a lack of domains images due to the difficulty in creating an efficient imaging system in such environments. Here we present an innovative MOI technique that separates the imaging optical path from the one illuminating the object. The technique is based on thermal light GI and exploits correlations between light beams to retrieve the image of magnetic domains. As a proof of principle, the proposed technique is applied to the Faraday magneto-optical observation of the remanence domain structure of an yttrium iron garnet sample.
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- 2015
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42. Bell measurements as a witness of a dualism in entanglement
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Moreva, E., Brida, G., Gramegna, M., Bose, S., Home, D., and Genovese, M.
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Quantum Physics - Abstract
We show how a property of dualism, which can exist in the entanglement of identical particles, can be tested in the usual photonic Bell measurement apparatus with minor modifications. Two different sets of coincidence measurements on the same experimental setup consisting of a Hong-Ou-Mandel interferometer demonstrate how the same two-photon state can emerge entanglement in the polarization or the momentum degree of freedom depending on the dynamical variables used for labeling the particles. Our experiment demonstrates how the same source can be used as both a polarization entangled state, as well as a dichotomic momentum entangled state shared between distant users Alice and Bob in accordance to which sets of detectors they access. When the particles become distinguishable by letting the information about one of the variables to be imprinted in yet another (possibly inaccessible) system or degree of freedom, the feature of dualism is expected to vanish. We verify this feature by polarization decoherence (polarization information in environment) or arrival time difference, which both respectively destroy one of the dual forms of entanglement., Comment: 5 pages, 4 figures
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- 2015
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43. The time as an emergent property of quantum mechanics, a synthetic description of a first experimental approach
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Moreva, E, Brida, G, Gramegna, M, Giovannetti, V, Maccone, L, and Genovese, M
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Quantum Physics - Abstract
The "problem of time" in present physics substantially consists in the fact that a straightforward quantization of the general relativistic evolution equation and constraints generates for the Universe wave function the Wheeler-De Witt equation, which describes a static Universe. Page and Wootters considered the fact that there exist states of a system composed by entangled subsystems that are stationary, but one can interpret the component subsystems as evolving: this leads them to suppose that the global state of the universe can be envisaged as one of this static entangled state, whereas the state of the subsystems can evolve. Here we synthetically present an experiment, based on PDC polarization entangled photons, that allows showing with a practical example a situation where this idea works, i.e. a subsystem of an entangled state works as a "clock" of another subsystem.
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- 2015
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44. Quantum correlation dynamics in photosynthetic processes assisted by molecular vibrations
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Giorgi, G. L., Roncaglia, M., Raffa, F. A., and Genovese, M.
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Quantum Physics - Abstract
During the long course of evolution, nature has learnt how to exploit quantum effects. In fact, recent experiments reveal the existence of quantum processes whose coherence extends over unexpectedly long time and space ranges. In particular, photosynthetic processes in light-harvesting complexes display a typical oscillatory dynamics ascribed to quantum coherence. Here, we consider the simple model where a dimer made of two chromophores is strongly coupled with a quasi-resonant vibrational mode. We observe the occurrence of wide oscillations of genuine quantum correlations, between electronic excitations and the environment, represented by vibrational bosonic modes. Such a quantum dynamics has been unveiled through the calculation of the negativity of entanglement and the discord, indicators widely used in quantum information for quantifying the resources needed to realize quantum technologies. We also discuss the possibility of approximating additional weakly-coupled off-resonant vibrational modes, simulating the disturbances induced by the rest of the environment, by a single vibrational mode. Within this approximation, one can show that the off-resonant bath behaves like a classical source of noise.
- Published
- 2015
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45. Two-mode squeezed vacuum and squeezed light in correlated interferometry
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Berchera, I. Ruo, Degiovanni, I. P., Olivares, S., Samantaray, N., Traina, P., and Genovese, M.
- Subjects
Quantum Physics - Abstract
We study in detail a system of two interferometers aimed to the detection of extremely faint phase-fluctuations. This system can represent a breakthrough for detecting a faint correlated signal that would remain otherwise undetectable even using the most sensitive individual interferometric devices, that are limited by the shot noise. If the two interferometers experience identical phase-fluctuations, like the ones introduced by the so called "holographic noise", this signal should emerge if their output signals are correlated, while the fluctuations due to shot noise and other independent contributions will vanish. We show how the injecting quantum light in the free ports of the interferometers can reduce the photon noise of the system beyond the shot-noise, enhancing the resolution in the phase-correlation estimation. We analyze both the use of two-mode squeezed vacuum or twin-beam state (TWB) and of two independent squeezing states. Our results basically confirms the benefit of using squeezed beams together with strong coherent beams in interferometry, even in this correlated case. However, mainly we concentrate on the possible use of TWB, discovering interesting and probably unexplored areas of application of bipartite entanglement and in particular the possibility of reaching in principle surprising uncertainty reduction.
- Published
- 2015
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46. Light-field ghost imaging
- Author
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Paniate, A., primary, Massaro, G., additional, Avella, A., additional, Meda, A., additional, Pepe, F.V., additional, Genovese, M., additional, D'Angelo, M., additional, and Ruo-Berchera, I., additional
- Published
- 2024
- Full Text
- View/download PDF
47. Predictive role of natural killer cells in bronchoalveolar lavage fluid of patients with sarcoidosis
- Author
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Bergantini, L., primary, Spalletti, M., additional, d'Alessandro, M., additional, Genovese, M., additional, Masotto, E., additional, Cameli, P., additional, Prasse, A., additional, and Bargagli, E., additional
- Published
- 2024
- Full Text
- View/download PDF
48. Positive Operator-Valued Measure reconstruction of a beam-splitter tree based photon-number-resolving detector
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Piacentini, F., Levi, M. P., Avella, A., Lopez, M., Kueck, S., Polyakov, S. V., Degiovanni, I. P., Brida, G., and Genovese, M.
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Quantum Physics - Abstract
Here we present a reconstruction of the Positive Operator-Value Measurement of a photon-number-resolving detector comprised of three 50:50 beamsplitters in a tree configuration, terminated with four single-photon avalanche detectors. The four detectors' outputs are processed by an electronic board that discriminates detected photon number states from 0 to 4 and implements a "smart counting" routine to compensate for dead time issues at high count rates.
- Published
- 2014
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49. Electrical stimulation of single-photon emission from nitrogen-vacancy centers in diamond with sub-superficial graphitic electrodes
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Forneris, J., Monticone, D. Gatto, Traina, P., Grilj, V., Brida, G., Amato, G., Boarino, L., Enrico, E., Degiovanni, I. P., Moreva, E., Skukan, N., Jakšić, M., Genovese, M., and Olivero, P.
- Subjects
Condensed Matter - Materials Science ,Quantum Physics - Abstract
Focused MeV ion beams with micrometric resolution are suitable tools for the direct writing of conductive graphitic channels buried in an insulating diamond bulk. Their effectiveness has been shown for the fabrication of multi-electrode ionizing radiation detectors and cellular biosensors. In this work we investigate such fabrication method for the electrical excitation of color centers in diamond. Differently from optically-stimulated light emission from color centers in diamond, electroluminescence (EL) requires a high current flowing in the diamond subgap states between the electrodes. With this purpose, buried graphitic electrode pairs with a spacing of 10 $\mu$m were fabricated in the bulk of a single-crystal diamond sample using a 6 MeV C microbeam. The electrical characterization of the structure showed a significant current above an effective voltage threshold of 150V, which was interpreted according to the theory of Space Charge Limited Current. The EL imaging allowed to identify the electroluminescent regions and the residual vacancy distribution associated with the fabrication technique. Measurements evidenced bright electroluminescent emission from native neutrally-charged nitrogen-vacancy centers ($NV^0$); the acquired spectra highlighted the absence of EL associated with radiation damage., Comment: This article has been withdrawn due to the inclusion of additional upgrades and modifications, which significantly improve the paper. A new submission will be performed at a later stage
- Published
- 2014
- Full Text
- View/download PDF
50. Electroluminescence from a diamond device with ion-beam-micromachined buried graphitic electrodes
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Forneris, J., Battiato, A., Monticone, D. Gatto, Picollo, F., Amato, G., Boarino, L., Brida, G., Degiovanni, I. P., Enrico, E., Genovese, M., Moreva, E., Traina, P., Verona, C., Verona-Rinati, G., and Olivero, P.
- Subjects
Condensed Matter - Materials Science ,Quantum Physics - Abstract
Focused MeV ion microbeams are suitable tools for the direct writing of conductive graphitic channels buried in an insulating diamond bulk, as demonstrated in previous works with the fabrication of multi-electrode ionizing radiation detectors and cellular biosensors. In this work we investigate the suitability of the fabrication method for the electrical excitation of colour centres in diamond. Differently from photoluminescence, electroluminescence requires an electrical current flowing through the diamond sub-gap states for the excitation of the colour centres. With this purpose, buried graphitic electrodes with a spacing of 10 micrometers were fabricated in the bulk of a detector-grade CVD single-crystal diamond sample using a scanning 1.8 MeV He micro-beam. The current flowing in the gap region between the electrodes upon the application of a 250 V bias voltage was exploited as the excitation pump for the electroluminescence of different types of colour centres localized in the above-mentioned gap. The bright light emission was spatially mapped using a confocal optical microscopy setup. The spectral analysis of electroluminescence revealed the emission from neutrally-charged nitrogen-vacancy centres ($NV^0$, $\lambda_{ZPL}$ = 575 nm), as well as from cluster crystal dislocations (A-band, {\lambda} = 400-500 nm). Moreover, an electroluminescence signal with appealing spectral features (sharp emission at room temperature, low phonon sidebands) from He-related defects was detected ($\lambda_{ZPL}$ = 536.3 nm, $\lambda_{ZPL}$ = 560.5 nm); a low and broad peak around {\lambda} = 740 nm was also observed and tentatively ascribed to Si-V or GR1 centres. These results pose interesting future perspectives for the fabrication of electrically-stimulated single-photon emitters in diamond for applications in quantum optics and quantum cryptography.
- Published
- 2014
- Full Text
- View/download PDF
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