Media highlights on our research
“Programmable metasurfaces in 6G networks vulnerable to wireless attacks,” Global Business Outlook, September 5, 2023.
J. Soisson, “Programmable metasurfaces in 6G networks: Enhancing communication pathways with new cybersecurity risks,” OPP.TODAY, August 31, 2023.
B. Vincent, “Hackers can exploit weaknesses in programmable metasurfaces to launch new types of attacks on 6G networks,” OPP.TODAY, August 30, 2023.
K. Gülen, “Security flaws found in emerging 6G tech,” Ghacks, August 30, 2023.
“Significant security gaps discovered in 6G mobile connectivity,” Metro Americas, August 28, 2023.
H. Harrison, “Danger for all mobiles: 6G is insecure,” Gearrice, August 28, 2023.
A. Morgan, “What are metasurfaces and why do they pose a huge security risk with the advent of 6G?,” Gearrice, August 28, 2023.
“Critical Vulnerabilities uncovered in vital 6G technology: What you need to know”, TechPlugged, August 28, 2023.
K. Afifi-Sabet, “Researchers find worrying vulnerabilities in key 6G technology,” TechRadar, August 28, 2023.
I. Fadelli, “Study highlights the vulnerabilities of metasurface-based wireless communication systems,” Tech Xplore, August 25, 2023.
“Rischi sicurezza 6G: studio Unisannio pubblicato su Nature Electronics,” Il Mattino, Aug. 7, 2023. 🇮🇹
“Prof. Galdi Optica Fellow profile,” Optica, Nov. 2, 2021.
“Antenne wireless che imparano con l’intelligenza artificiale,” La Repubblica, Oct. 18, 2018. 🇮🇹
“Doing math with light,” Optics & Photonics News, Dec. 1, 2014.
P. Reuell, “Harvesting energy from devices,” phys.org, July 4, 2014.
S. Bland, “Metamaterials and analog computing,” Materials Today, Apr. 14, 2014.
“Un ritorno dei computer analogici?” Automazione Integrata, Mar. 13, 2014. 🇮🇹
D. Gevaux, “A mathematical metamaterial,” Nature Physics 10(2), 86, Jan. 31, 2014.
R. Suba, “Harry Potter’s invisibility cloak can do analog computing, claim researchers,” Tech Times, Jan. 18, 2014.
D. Lung, “Researchers believe metamaterials can function as analog ‘computers’,” TVTechnology, Jan. 17, 2014.
E. Lerner, “Metamaterials that do math,” Penn Current, Jan. 16, 2014.
“Verso un calcolatore fotonico basato su metamateriali,” Le Scienze, Jan. 14, 2014. 🇮🇹
“Metamaterials can be used to perform mathematical operations like calculus,” Gadgets 360° – NDTV, Jan. 13, 2014.
J. Hecht, “Analog computing with metamaterials,” Laser Focus World, Jan. 12, 2014.
J. Emspak, “‘Invisibility’ materials could do computer’s work,” NBC News, Jan. 12, 2014.
S. Zhang, “This amazing, light-bending metamaterial can do calculus,” Gizmodo, Jan. 12, 2014.
A. Sihvola, “Enabling optical analog computing with metamaterials,” Science 343(6167), 144–145, Jan. 10, 2014.
J. Aron, “First light-bending calculator designed with metamaterials,” New Scientist, Jan. 10, 2014.
E. Gent, “Light at the end of the tunnel for analog computing,” IET Engineering and Technology, Jan. 10, 2014.
“New study helps lay out theory for metamaterials that act as an analog computer,” NanoWerk, Jan. 10, 2014.
“Metamaterials could be designed to do ‘photonic calculus’,” AzoNano, Jan. 10, 2014.
“Metamaterials could perform calculus, bring analog computers back from the dead,” Headlines & Global News, Jan. 10, 2014.
J. Timmer, “Metamaterials could perform calculus with light waves,” Ars Technica, Jan. 10, 2014.
“Math performed with metamaterials,” EurekAlert! – AAAS, Jan. 10, 2014.
G. Popkin, “Materials’ light tricks may soon extend to doing math,” Science News, Jan. 10, 2014.
“Researchers lay out theory for metamaterials that act as an analog computer,” phys.org, Jan. 10, 2014.
“Computer analogici: dai materiali dei mantelli dell’invisibilità una tecnologia per elaborare la luce,” La Repubblica, Jan. 10, 2014. 🇮🇹
“Theory for metamaterials that act as an analog computer,” Science Daily, Jan. 9, 2014.