"Terahertz and millimeter wave progress
Millimeter waves (30 to 300 GHz) and terahertz radiation (300 to 3000 GHz) might, according to some speculations, be used in 6G. The wave propagation of these frequencies is much more sensitive to obstacles than the microwave frequencies (about 2 to 30 GHz) used in 5G and Wi-Fi, which are more sensitive than the radio waves used in 1G, 2G, 3G and 4G."
6G
https://en.wikipedia.org/wiki/6G
"Terahertz and millimeter wave progress Millimeter waves (30 to 300 GHz) and terahertz radiation (300 to 3000 GHz) might, according to some speculations, be used in 6G. The wave propagation of these frequencies is much more sensitive to obstacles than the microwave frequencies (about 2 to 30 GHz) used in 5G and Wi-Fi, which are more sensitive than the radio waves used in 1G, 2G, 3G and 4G." 6G https://en.wikipedia.org/wiki/6G
6G
In telecommunications, 6G is the designation for a future technical standard of a sixth-generation technology for wireless communications. It is the planned successor to 5G (ITU-T IMT-2020), and is currently in the early stages of the standardization process, tracked by the ITU-T as IMT-2030 with the framework and overall objectives defined in recommendation ITU-R M.2160-0. Similar to previous generations of the cellular architecture, standardization bodies such as 3GPP and ETSI, as well as industry groups such as the NGMN Alliance, are expected to play a key role in its development. Numerous companies (Airtel, Anritsu, Apple, Ericsson, Fly, Huawei, Jio, Keysight, LG, Nokia, NTT Docomo, Samsung, Vi, Xiaomi), research institutes (Technology Innovation Institute, the Interuniversity Microelectronics Centre) and countries (United States, United Kingdom, countries in the...
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