Dissemination

Journal Papers

A. Conti, A. Giani, and M. Z. Win, “State engineering for quantum networks,” IEEE Netw., pp. 1–7, 2026, to appear.

@ARTICLE{ConGiaWin:J26,

author = {Andrea Conti and Andrea Giani and Moe Z. Win},

title = {State engineering for quantum networks},

journal = {IEEE Netw.},

volume = {},

number = {},

pages = {1--7},

numpages = {},

month = {},

year = {2026},

note = "to appear",

}

A. Giani, M. Z. Win, P. L. Falb, and A. Conti, “Unveiling distinguishable non-gaussian quantum states,” Phys. Rev. A, pp. 1–16, Jan. 2026.

@ARTICLE{GiaWinFalCon:J26,

author = {Andrea Giani and Moe Z. Win and Peter L. Falb and Andrea Conti},

title = {Unveiling Distinguishable Non-{G}aussian Quantum States},

journal = {Phys. Rev. A},

volume = {},

number = {},

pages = {1--16},

numpages = {},

month ={Gen.},

year = {2026},

publisher = {American Physical Society}

}

A. Giani, M. Z. Win, and A. Conti, “Quantum sensing and communication via non-Gaussian states,” IEEE J. Sel. Areas Inf. Theory, vol. 6, pp. 18–33, Mar. 2025.

@ARTICLE{GiaWinCon:J25,

author = {Andrea Giani and Moe Z. Win and Andrea Conti},

title = {Quantum Sensing and Communication via Non-{G}aussian States},

journal = {IEEE J. Sel. Areas Inf. Theory},

volume = {6},

number = {},

pages = {18-33},

month = {Mar.},

year = {2025},

note = {special issue dedicated to the memory of Toby Berger on {\em Data, Physics, and Life Through the Lens of Information Theory}},

}

S. Tserkis, S. M. Assad, A. Conti, and M. Z. Win. Entanglement criterion and strengthened Bell inequalities based on the Pearson correlation. Phys. Lett. A, vol. 519, p. 129635, 2024.

@ARTICLE{TseAssConWin:24,

author = {Tserkis, Spyros and Assad, Syed M. and Conti, Andrea and Win, Moe Z.},

journal = {Phys. Lett. A},

title = {{Entanglement criterion and strengthened Bell inequalities based on the Pearson correlation}},

year = {2024},

volume = {519},

pages = {129635},

doi = {https://doi.org/10.1016/j.physleta.2024.129635},

}

D. Forlivesi, L. Valentini, and M. Chiani. Quantum Codes for Asymmetric Channels: ZZZY Surface Codes. IEEE Communications Letters, vol. 28, no. 10, pp. 2233-2237, 2024.

@ARTICLE{10666750,

author={Forlivesi, Diego and Valentini, Lorenzo and Chiani, Marco},

journal={IEEE Commun. Lett.},

title={Quantum Codes for Asymmetric Channels: {ZZZY} Surface Codes},

year={2024},

month={Sep.},

volume={28},

number={10},

pages={2233-2237},

keywords={Codes;Qubit;Generators;Decoding;Lattices;Error correction codes;Measurement uncertainty;Quantum error correction;surface codes;MWPM decoder;asymmetric quantum channels},

doi={10.1109/LCOMM.2024.3454804}}

D. Forlivesi, L. Valentini, and M. Chiani. Logical error rates of XZZX and rotated quantum surface codes. IEEE Journal on Selected Areas in Communications, 2024.

@ARTICLE{ForValChi:J24a,

title = {Logical Error Rates of XZZX and Rotated Quantum Surface Codes},

author = {Forlivesi, Diego and Valentini, Lorenzo and Chiani, Marco},

journal = {IEEE J. on Sel. Areas in Commun.},

pages = {1-1},

year = {2024},}

D. Forlivesi, L. Valentini, and M. Chiani. Spanning Tree Matching Decoder for Quantum Surface Codes. IEEE Communications Letters, vol. 28, no. 7, pp.1509-1513, 2024.

@ARTICLE{ForValChi:J24b,

title = {Spanning Tree Matching Decoder for Quantum Surface Codes},

author = {Forlivesi, Diego and Valentini, Lorenzo and Chiani, Marco},

journal = {IEEE Commun. Lett.},

year = {2024},

volume={28},

number={7},

pages = {1509-1513},

keywords={Decoding;Codes;Qubit;Lattices;Error correction;Pattern matching;Error correction codes;Quantum error correcting codes;quantum communications;quantum computing;surface codes},

doi={10.1109/LCOMM.2024.3396882},}

L. Valentini, R. B. Christensen, P. Popovski, and M. Chiani. Reliable Quantum Communications Based on Asymmetry in Distillation and Coding. IEEE Transactions on Quantum Engineering, vol. 5, pp. 1-13, 2024.

@ARTICLE{ValChrPopChi:J24a,

title = {Reliable Quantum Communications Based on Asymmetry in Distillation and Coding},

author = {Valentini, Lorenzo and Christensen, René Bødker and Popovski, Petar and Chiani, Marco},

journal = {IEEE Tran. Quantum Eng.},

volume={5},

number={},

pages = {1-13},

year = {2024},

keywords={Qubit;Quantum computing;Reliability;Protocols;Quantum entanglement;Teleportation;Encoding;Asymmetric channels;asymmetric quantum error correction (QEC);quantum communications;quantum distillation},

doi={10.1109/TQE.2024.3399609},}

S. Guerrini, M. Z. Win, and A. Conti, “Photon-varied Quantum States: Unified Characterization ,” Phys. Rev. A, vol. 108, no. 2, p. 022425, Aug. 2023.

@ARTICLE{GueWinCon:J23,

title = {Photon-varied quantum states: Unified characterization},

author = {Guerrini, Stefano and Win, Moe Z. and Conti, Andrea},

journal = {Phys. Rev. A},

volume = {108},

number= {2},

pages = {022425},

numpages = {11},

year = {2023},

month = {Aug.},

publisher = {American Physical Society},

doi = {10.1103/PhysRevA.108.022425},

url = {https://link.aps.org/doi/10.1103/PhysRevA.108.022425},}

Conference Articles

D. Andromari, A. Giani, M. Z. Win, and A. Conti, “Teleportation of coherent-state qubits with asymmetric and lossy entanglement distribution,” in Proc. Int. Conf. on Quantum Commun., Netw., and Comput. (QCNC), Kobe, Japan, Apr. 2026, pp. 1–6.

@INPROCEEDINGS{AndGiaWinCon:C26,

author = {Davide Andromari and Andrea Giani and Moe Z. Win and Andrea Conti},

title = {Teleportation of coherent-state qubits with asymmetric and lossy entanglement distribution},

booktitle ={Proc. Int. Conf. on Quantum Commun., Netw., and Comput. (QCNC)},

volume = {},

pages = {1--6},

month = {Apr.},

year = 2026,

address = {Kobe, Japan},

}

F. Forzano, A. Giani, S. Marano, M. Z. Win, and A. Conti, “Quadrature measurement characterization for single-mode photon-varied Gaussian states,” in Proc. IEEE Int. Conf. on Computer Commun., London, UK, May 2025, pp. 1–6.

@INPROCEEDINGS{ForGiaMarWinCon:C25,

author = {Federico Forzano and Andrea Giani and Stefano Marano and Moe Z. Win and Andrea Conti},

title = {Quadrature Measurement Characterization for Single-Mode Photon-Varied {G}aussian States},

booktitle ={Proc. IEEE Int. Conf. on Computer Commun.},

volume = {},

number = {},

pages = {1-6},

month = {May},

year = {2025},

address = {London, UK},

}

M. Clouâtré, S. Marano, A. Conti, P. L. Falb, and M. Z. Win, “Optimal quantum state discrimination with fixed measurements,” in Proc. Int. Conf. on Quantum Commun., Netw., and Comput. (QCNC), Nara, Japan, Apr. 2025, pp. 247–253, Best Paper Award.

@ARTICLE{CloMarFalWin:L24,

author = {Maison Clou\^{a}tr\'{e} and Stefano Marano and Peter L. Falb and Moe Z. Win},

title = {Admissible Optimal Control for Parameter Estimation in Quantum Systems},

journal ={Proc. Int. Conf. on Quantum Commun., Netw., and Comput. (QCNC)},

volume = {8},

number = {},

pages = {2283-2288},

month = {Sep.},

year = {2024},

doi = {10.1109/LCSYS.2024.3411624},

note = {Best Paper Award},

}

B. Kartal, S. Marano, A. Conti, and M. Z. Win, “Quantum advantage of ranging via squeezed states,” in Proc. Int. Conf. on Quantum Commun., Netw., and Comput. (QCNC), Nara, Japan, Apr. 2025, pp. 388–393.

@INPROCEEDINGS{KarMarConWin:C25,

author = {B\"{u}nyamin Kartal and Stefano Marano and Andrea Conti and Moe Z. Win},

title = {Quantum Advantage of Ranging via Squeezed States},

booktitle = {Proc. Int. Conf. on Quantum Commun., Netw., and Comput. (QCNC)},

volume = {},

pages = {388-393},

month = {Apr.},

year = 2025,

address = {Nara, Japan},

}

S. M. Oh, H. Shin, S. Marano, A. Conti, and M. Z. Win, “Entanglement percolation in noisy quantum networks,” in Proc. Int. Conf. on Quantum Commun., Netw., and Comput. (QCNC), Kanazawa, Japan, Jul. 2024, pp. 143–149, Best Paper Award.

@INPROCEEDINGS{OhShiMarConWin:C24,

author = {Soo Min Oh and Hyundong Shin and Stefano Marano and Andrea Conti and Moe Z. Win},

title = {Entanglement Percolation in Noisy Quantum Networks},

booktitle = {Proc. Int. Conf. on Quantum Commun., Netw., and Comput. (QCNC)},

volume = {},

pages = {143-149},

month = {Jul.}

year = 2024,

address = {Kanazawa, Japan},

note = {Best Paper Award},

}

A. Giani, M. Z. Win, and A. Conti, “Quantum Quadrature Amplitude Modulation with Photon-Added Gaussian States,” Proc. IEEE Glob. Commun. Conf. (GLOBECOM), Kuala Lumpur, Malesia, 2023, pp. 5469-5474.

@INPROCEEDINGS{GiaWinCon:C23b,

author = {Giani, Andrea and Win, Moe and Conti, Andrea},

year = {2023},

pages = {5469-5474},

volume={},

number={},

booktitle={Proc. IEEE Glob. Commun. Conf. (GLOBECOM)},

title = {Quantum Quadrature Amplitude Modulation with Photon-Added Gaussian States},

doi = {10.1109/GLOBECOM54140.2023.10437870},}

Presentations

A. Giani, “Quantum Sensing and Communication via Non-Gaussian States,” CNIT-WiLab Panel , Online, Nov. 2024, Invited Talk.

L. Valentini, “Recent results on Quantum Surface Codes: Analysis, Design, Decoding,” CNIT-WiLab Panel , Online, Nov. 2024, Invited Talk.

M. Chiani, “Quantum error correction for communications and computing,” CNIT-WiLab Panel , Online, Nov. 2024, Invited Talk.

A. Conti, “Quantum Sensing and Communication: the PRIN’22 Project,” CNIT-WiLab Panel , Online, Nov. 2024, Invited Talk.

A. Conti, “Quantum State Characterization, Design, and Discrimination,” CTW 2024 – IEEE Communication Theory Workshop , Banff, Canada, 2024, Invited Talk.

M. Chiani, “Quantum Internet,” CTW 2024 – IEEE Communication Theory Workshop , Banff, Canada, 2024, Session Organizer and Introductory Talk.

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