Your search keyword '"Lupo C"' showing total 14 results

1. Photonic quantum data locking

Author

Huang, Z, Rohde, PP, Berry, DW, Kok, P, Dowling, JP, Lupo, C, Huang, Z, Rohde, PP, Berry, DW, Kok, P, Dowling, JP, and Lupo, C

Abstract

Quantum data locking is a quantum phenomenon that allows us to encrypt a long message with a small secret key with information-theoretic security. This is in sharp contrast with classical information theory where, according to Shannon, the secret key needs to be at least as long as the message. Here we explore photonic architectures for quantum data locking, where information is encoded in multi-photon states and processed using multi-mode linear optics and photo-detection, with the goal of extending an initial secret key into a longer one. The secret key consumption depends on the number of modes and photons employed. In the no-collision limit, where the likelihood of photon bunching is suppressed, the key consumption is shown to be logarithmic in the dimensions of the system. Our protocol can be viewed as an application of the physics of Boson Sampling to quantum cryptography. Experimental realisations are challenging but feasible with state-of-the-art technology, as techniques recently used to demonstrate Boson Sampling can be adapted to our scheme (e.g., Phys. Rev. Lett. 123, 250503, 2019).

Published

2021

2. Photonic quantum data locking

Author

Huang, Z, Rohde, PP, Berry, DW, Kok, P, Dowling, JP, Lupo, C, Huang, Z, Rohde, PP, Berry, DW, Kok, P, Dowling, JP, and Lupo, C

Abstract

Quantum data locking is a quantum phenomenon that allows us to encrypt a long message with a small secret key with information-theoretic security. This is in sharp contrast with classical information theory where, according to Shannon, the secret key needs to be at least as long as the message. Here we explore photonic architectures for quantum data locking, where information is encoded in multi-photon states and processed using multi-mode linear optics and photo-detection, with the goal of extending an initial secret key into a longer one. The secret key consumption depends on the number of modes and photons employed. In the no-collision limit, where the likelihood of photon bunching is suppressed, the key consumption is shown to be logarithmic in the dimensions of the system. Our protocol can be viewed as an application of the physics of Boson Sampling to quantum cryptography. Experimental realisations are challenging but feasible with state-of-the-art technology, as techniques recently used to demonstrate Boson Sampling can be adapted to our scheme (e.g., Phys. Rev. Lett. 123, 250503, 2019).

Published

2021

3. Advances in Quantum Cryptography

Author

Pirandola, S., Andersen, U. L., Banchi, L., Berta, M., Bunandar, D., Colbeck, R., Englund, D., Gehring, Tobias, Lupo, C., Ottaviani, C., Pereira, J., Razavi, M., Shaari, J. S., Tomamichel, M., Usenko, V. C., Vallone, G., Villoresi, P., Wallden, P., Pirandola, S., Andersen, U. L., Banchi, L., Berta, M., Bunandar, D., Colbeck, R., Englund, D., Gehring, Tobias, Lupo, C., Ottaviani, C., Pereira, J., Razavi, M., Shaari, J. S., Tomamichel, M., Usenko, V. C., Vallone, G., Villoresi, P., and Wallden, P.

Abstract

Quantum cryptography is arguably the fastest growing area in quantum information science. Novel theoretical protocols are designed on a regular basis, security proofs are constantly improving, and experiments are gradually moving from proof-of-principle lab demonstrations to in-field implementations and technological prototypes. In this review, we provide both a general introduction and a state of the art description of the recent advances in the field, both theoretically and experimentally. We start by reviewing protocolsof quantum key distribution based on discrete variable systems. Next we consider aspects of device independence, satellite challenges, and high rate protocols based on continuous variable systems. We will then discuss the ultimate limits of point-to-point private communications and how quantum repeaters and networks may overcome these restrictions. Finally, we will discuss some aspects of quantum cryptography beyond standard quantum key distribution, including quantum data locking and quantum digital signatures.

Published

2020

4. Contribution of Meat Inspection to the surveillance of poultry health and welfare in the European Union

Author

HUNEAU-SALAÜN, A., STÄRK, K. D. C., MATEUS, A., LUPO, C., LINDBERG, A., LE BOUQUIN-LENEVEU, S., HUNEAU-SALAÜN, A., STÄRK, K. D. C., MATEUS, A., LUPO, C., LINDBERG, A., and LE BOUQUIN-LENEVEU, S.

Abstract

In the European Union, Meat Inspection (MI) aims to protect public health by ensuring that minimal hazardous material enters in the food chain. It also contributes to the detection and monitoring of animal diseases and welfare problems but its utility for animal surveillance has been assessed partially for some diseases only. Using the example of poultry production, we propose a complete assessment of MI as a health surveillance system. MI allows a long-term syndromic surveillance of poultry health but its contribution is lowered by a lack of data standardization, analysis and reporting. In addition, the probability of case detection for 20 diseases and welfare conditions was quantified using a scenario tree modelling approach, with input data based on literature and expert opinion. The sensitivity of MI appeared to be very high to detect most of the conditions studied because MI is performed at batch level and applied to a high number of birds per batch

Published

2017

5. Toward Anticancer Therapeutics Based on Glycidic Structures

Author

Prudhomme, M, Gabrielli, L, Capitoli, A, Russo, L, Bini, D, Taraballi, F, Lupo, C, Cipolla, L, GABRIELLI, LUCA, CAPITOLI, ALICE, RUSSO, LAURA, BINI, DAVIDE, TARABALLI, FRANCESCA, LUPO, CRISTINA, CIPOLLA, LAURA FRANCESCA, Prudhomme, M, Gabrielli, L, Capitoli, A, Russo, L, Bini, D, Taraballi, F, Lupo, C, Cipolla, L, GABRIELLI, LUCA, CAPITOLI, ALICE, RUSSO, LAURA, BINI, DAVIDE, TARABALLI, FRANCESCA, LUPO, CRISTINA, and CIPOLLA, LAURA FRANCESCA

Abstract

Recent efforts in the design and synthesis of potential anti-cancer vaccines based on carbohydrates are outlined, covering literature up to 2012. This approach capitalises on the fact that cancer cells often display alterations in their glycan repertoire if compared to normal cells, resulting in the accumulation of new structures, usually referred as to tumour-associated carbohydrate antigens (TACA). Several preclinical and clinical studies demonstrate that naturally acquired, passively administered, or actively induced antibodies against TACAs are able to eliminate circulating tumour cells and micro-metastases in cancer patients. TACAs can be ideal candidates to elicit an antitumor immune response, however they are often not immunogenic enough to induce protection, since many of them are of embryonic origin or expressed in normal tissue, even if at low levels, and consequently tolerated by the immune system. Approaches toward breaking self-tolerance in the design of novel glycocnjugates structures, together with new conjugation methods appeared in the last years will be considered.

Published

2013

6. Amino and carboxyl plasma functionalization of collagen films for tissue engineering applications

Author

Taraballi, F, Zanini, S, Lupo, C, Panseri, S, Cunha, C, Riccardi, C, Marcacci, M, Campione, M, Cipolla, L, TARABALLI, FRANCESCA, ZANINI, STEFANO, LUPO, CRISTINA, RICCARDI, CLAUDIA, CAMPIONE, MARCELLO, CIPOLLA, LAURA FRANCESCA, Taraballi, F, Zanini, S, Lupo, C, Panseri, S, Cunha, C, Riccardi, C, Marcacci, M, Campione, M, Cipolla, L, TARABALLI, FRANCESCA, ZANINI, STEFANO, LUPO, CRISTINA, RICCARDI, CLAUDIA, CAMPIONE, MARCELLO, and CIPOLLA, LAURA FRANCESCA

Abstract

Type I collagen films have been functionalized on their surfaces by plasma treatment with carboxyl and amino groups to improve their potential for grafting bioactive molecules. The physico-chemical properties of the plasma-treated films were evaluated and compared to the untreated materials by water contact angle, SEM and AFM. The presence of new functional groups on the film surfaces has been assessed by ATR-FTIR spectra after chemical derivatization. Moreover, the biocompatibility of the plasma-treated films was studied with MG-63 human osteoblast-like cells, evaluating cell proliferation, viability and morphology at 1, 3 and 7 days.

Published

2013

7. Carbonate hydroxyapatite functionalization: a comparative study towards (bio)molecules fixation

Author

Russo, L, Taraballi, F, Lupo, C, Poveda, A, Jimenez Barbero, J, Sandri, M, Tampieri, A, Nicotra, F, Cipolla, L, RUSSO, LAURA, TARABALLI, FRANCESCA, LUPO, CRISTINA, NICOTRA, FRANCESCO, CIPOLLA, LAURA FRANCESCA, Russo, L, Taraballi, F, Lupo, C, Poveda, A, Jimenez Barbero, J, Sandri, M, Tampieri, A, Nicotra, F, Cipolla, L, RUSSO, LAURA, TARABALLI, FRANCESCA, LUPO, CRISTINA, NICOTRA, FRANCESCO, and CIPOLLA, LAURA FRANCESCA

Abstract

Different methods for the functionalization of carbonate hydroxyapatite granules with free amine groups by reaction with (3-aminopropyl)triethoxysilane (APTES) have been compared in order to improve the potential for tethering of bioactive molecules to bioceramics. The combined use of tetraethoxyorthosilicate (TEOS) and APTES with acid catalysis resulted in an evident increase of amine surface grafting.

Published

2013

8. Unmasking epithelial-mesenchymal transition in a breast cancer primary culture: a study report

Author

Minafra, L, Norata, R, Bravatà, V, Viola, M, Lupo, C, Gelfi, C, Messa, M, MESSA, MARIA CRISTINA, Minafra, L, Norata, R, Bravatà, V, Viola, M, Lupo, C, Gelfi, C, Messa, M, and MESSA, MARIA CRISTINA

Abstract

BACKGROUND: Immortalized cancer cell lines are now well-established procedures in biomedicine for a more complete understanding of cellular processes in cancer. However, it is more useful the preparation of fresh tumour tissue, in order to obtain cancer cells with highly preserved individual tumour properties. In the present study we report an analytical investigation on a breast cancer primary cell culture isolated from a surgical specimen obtained from a patient with an infiltrating ductal carcinoma. The objective of the research was to reveal unrecognized aspects of neoplastic cells, typical of the tumour from where the cells were derived, but masked in fixed tissue sections, in order to better predict the aggressive potentiality of the tumour. FINDINGS: Using a combination of mechanical and enzymatic treatment, the tumour tissue was dissociated immediately after surgical removal. The primary cells were isolated by differential cell centrifugation and grown in selective media. Immunocytochemistry and quantitative RT-PCR analysis were performed to detect the presence of specific biomarkers at protein and transcript level. The isolated primary breast cancer cells displayed phenotypic behaviour, characteristic of malignant cells and expression of several mesenchymal markers, revealing a strong signature for the epithelial-to-mesenchymal transition associated to a stellate morphology with a number of cellular protrusions and the attitude to overgrow as multilayered overlapping cellular foci. CONCLUSIONS: Our data are a further meaningful indication that primary cell cultures represent a powerful system that could be applied to those cases deserving a deeper investigation at molecular level in order to design individualized anticancer therapies in the future.

Published

2012

9. Recent approaches to novel antibacterials designed after LPS structure and biochemistry

Author

Gabrielli, L, Capitoli, A, Bini, D, Taraballi, F, Lupo, C, Russo, L, Cipolla, L, GABRIELLI, LUCA, CAPITOLI, ALICE, BINI, DAVIDE, TARABALLI, FRANCESCA, LUPO, CRISTINA, RUSSO, LAURA, CIPOLLA, LAURA FRANCESCA, Gabrielli, L, Capitoli, A, Bini, D, Taraballi, F, Lupo, C, Russo, L, Cipolla, L, GABRIELLI, LUCA, CAPITOLI, ALICE, BINI, DAVIDE, TARABALLI, FRANCESCA, LUPO, CRISTINA, RUSSO, LAURA, and CIPOLLA, LAURA FRANCESCA

Abstract

Lipopolysaccharides (LPSs), which constitute the lipid portion of the outer leaflet of Gram-negative bacteria, are essential for growth, and are responsible for a variety of biological effects associated with Gram-negative sepsis. LPSs are amphiphilic molecules comprising three regions: lipid A, the core region, and a polysaccharide portion; the lipid A was proven to represent the toxic principle of endotoxic active lipopolysaccharides. In addition, it is known that the minimal conserved structure of LPS is the lipophylic oligoasaccharidic structure containing Kdo residues linked to the-LipA moiety. Thus, the design and development of novel antibacterial drugs can focus on different aspects, related to the biosynthesis and chemical features of LPS: 1) Inhibitors of lipid A biosynthesis 2) Inhibitors of Kdo biosynthesis. Both Kdo and Lipid A are needed for the construction of the minimum structural element Kdo2-LipidA, needed for bacterial survival. Any inhibitors acting on the biogenetic pathway of this molecule can act as antibacterial. 3) Antagonists of the interaction between endotoxins and the host receptors: LPS is recognised by the CD14 and the Toll-like receptor (TLR)- 4/MD2 complex, where Lipid A is the crucial moiety in the interaction. Any drug acting as an antagonist of this process can have antisepsis potential. Considerable efforts have been made in this direction to identify natural or synthetic molecules able to interfere with the interaction between LPS and inflammatory cells. This review will highlight recent efforts in the design and biological activity of enzyme inhibitors and antagonist acting on the 3 key aspects outlined above

Published

2012

10. Smart biomaterials: the contribution of glycoscience

Author

Rauter, AP, Lindhorst, T, Cipolla, L, Russo, L, Taraballi, F, Lupo, C, Bini, D, Gabrielli, L, Capitoli, A, Nicotra, F, CIPOLLA, LAURA FRANCESCA, RUSSO, LAURA, TARABALLI, FRANCESCA, LUPO, CRISTINA, BINI, DAVIDE, GABRIELLI, LUCA, CAPITOLI, ALICE, NICOTRA, FRANCESCO, Rauter, AP, Lindhorst, T, Cipolla, L, Russo, L, Taraballi, F, Lupo, C, Bini, D, Gabrielli, L, Capitoli, A, Nicotra, F, CIPOLLA, LAURA FRANCESCA, RUSSO, LAURA, TARABALLI, FRANCESCA, LUPO, CRISTINA, BINI, DAVIDE, GABRIELLI, LUCA, CAPITOLI, ALICE, and NICOTRA, FRANCESCO

Abstract

Examples of material functionalisation ("biodecoration") with signalling and relevant glycidic scaffolds will be outlined. Recent research concerning the development of smart biomaterials for Tissue Engineering (TE) applications will be considered.

Published

2012

11. Boson Sampling Private-Key Quantum Cryptography

Author

Huang, Z, Rohde, PP, Berry, DW, Kok, P, Dowling, JP, Lupo, C, Huang, Z, Rohde, PP, Berry, DW, Kok, P, Dowling, JP, and Lupo, C

Abstract

We introduce a quantum private-key encryption protocol based on multi-photon interference in linear optics networks. The scheme builds upon Boson Sampling, and we show that it is hard to break, even for a quantum computer. We present an information-theoretic proof of the security of our protocol against an eavesdropper with unlimited (quantum) computational power but time-limited quantum storage. This protocol is shown to be optimal in the sense that it asymptotically encrypts all the information that passes through the interferometer using an exponentially smaller private key. This is the first practical application of Boson Sampling in quantum communication. Our scheme requires only moderate photon numbers and is experimentally feasible with current technology.

12. Advances in Quantum Cryptography

Author

Pirandola, S, Andersen, UL, Banchi, L, Berta, M, Bunandar, D, Colbeck, R, Englund, D, Gehring, T, Lupo, C, Ottaviani, C, Pereira, J, Razavi, M, Shaari, JS, Tomamichel, M, Usenko, VC, Vallone, G, Villoresi, P, Wallden, P, Pirandola, S, Andersen, UL, Banchi, L, Berta, M, Bunandar, D, Colbeck, R, Englund, D, Gehring, T, Lupo, C, Ottaviani, C, Pereira, J, Razavi, M, Shaari, JS, Tomamichel, M, Usenko, VC, Vallone, G, Villoresi, P, and Wallden, P

Abstract

Quantum cryptography is arguably the fastest growing area in quantum information science. Novel theoretical protocols are designed on a regular basis, security proofs are constantly improving, and experiments are gradually moving from proof-of-principle lab demonstrations to in-field implementations and technological prototypes. In this review, we provide both a general introduction and a state of the art description of the recent advances in the field, both theoretically and experimentally. We start by reviewing protocols of quantum key distribution based on discrete variable systems. Next we consider aspects of device independence, satellite challenges, and high rate protocols based on continuous variable systems. We will then discuss the ultimate limits of point-to-point private communications and how quantum repeaters and networks may overcome these restrictions. Finally, we will discuss some aspects of quantum cryptography beyond standard quantum key distribution, including quantum data locking and quantum digital signatures.

13. Boson Sampling Private-Key Quantum Cryptography

Author

Huang, Z, Rohde, PP, Berry, DW, Kok, P, Dowling, JP, Lupo, C, Huang, Z, Rohde, PP, Berry, DW, Kok, P, Dowling, JP, and Lupo, C

Abstract

We introduce a quantum private-key encryption protocol based on multi-photon interference in linear optics networks. The scheme builds upon Boson Sampling, and we show that it is hard to break, even for a quantum computer. We present an information-theoretic proof of the security of our protocol against an eavesdropper with unlimited (quantum) computational power but time-limited quantum storage. This protocol is shown to be optimal in the sense that it asymptotically encrypts all the information that passes through the interferometer using an exponentially smaller private key. This is the first practical application of Boson Sampling in quantum communication. Our scheme requires only moderate photon numbers and is experimentally feasible with current technology.

14. Contribution of Meat Inspection to the surveillance of poultry health and welfare in the European Union

Author

HUNEAU-SALAÜN, A., STÄRK, K. D. C., MATEUS, A., LUPO, C., LINDBERG, A., LE BOUQUIN-LENEVEU, S., HUNEAU-SALAÜN, A., STÄRK, K. D. C., MATEUS, A., LUPO, C., LINDBERG, A., and LE BOUQUIN-LENEVEU, S.

Abstract

In the European Union, Meat Inspection (MI) aims to protect public health by ensuring that minimal hazardous material enters in the food chain. It also contributes to the detection and monitoring of animal diseases and welfare problems but its utility for animal surveillance has been assessed partially for some diseases only. Using the example of poultry production, we propose a complete assessment of MI as a health surveillance system. MI allows a long-term syndromic surveillance of poultry health but its contribution is lowered by a lack of data standardization, analysis and reporting. In addition, the probability of case detection for 20 diseases and welfare conditions was quantified using a scenario tree modelling approach, with input data based on literature and expert opinion. The sensitivity of MI appeared to be very high to detect most of the conditions studied because MI is performed at batch level and applied to a high number of birds per batch