Critical analysis of the work "Experiment to create a radio communication channel in the marine environment"
Simunin M. M.
11Krasnoyarsk Scientific Center of the Siberian Branch of the Russian Academy of Sciences, Krasnoyarsk, Russia
Email: michanel@mail.ru
The article "Experiment to create a radio communication channel in the marine environment" (authors: A.K. Tomilin, A.F. Lukin, A.N. Gulkov) published in Journal "Technical Physics Letters" (2021, vol. 47, Issue 11) is analyzed from the standpoint of classical physics. The organization of the experiment in the mentioned publication, interpretation of its results, and theory underlying the work are criticized. The proposed material is a methodological commentary and is intended to form consistent approaches to be used in studying and interpreting further works on creation of radio communication channels. Keywords: Radio communication in the marine environment, electromagnetic waves, methodological notes
- L.D. Landau, E.M. Lifshits, Teoreticheskaya fizika, 7 izd., ispr. (Nauka, M., 1988), t. 2 (in Russian)
- E.T. Protasevich, Radiotekhnika i elektronika, 43 (1), 5 (1998) (in Russian)
- V.N. Kolesnikov, Yu.S. Samgin, T.P. Kolesnikova, P.V. Kolesnikov, R.V. Kolesnikov, Sposoby peredachi i priema elektromagnitnykh voln cherez sredu i ustroystva dlya ikh osushchestvleniya, patent RF na izobretenie N 2143178 po zayavke N 98109181 (prioritet ot 18.05.98, vydan 20.12.99) (in Russian)
- R.I. Tzontchev, A.E. Chubukalo, J.M. Rivera-Juarez, LANL arXiv: Physics/0010036 (14 Oct 2000)
- E.T. Protasevich, v sb.: Tr. 8 Mezhdunar. konf. Radiolokatsiya, navigatsiya, svyaz'" (RLNC-2002) (Voronezh, 2002), t. 2, s. 1443 (in Russian)
- C. Monstein, J.P. Wesley, Europhys. Lett., 59 (4), 514 (2002). DOI: 10.1209/epl/i2002-00136-9
- Yu.M. Ermolaev, Elektrodinamika i tekhnika SVCh, KVCh i opticheskikh chastot, 12 (3-4), 33 (2004) (in Russian)
- K. Meyl, Scalar wave technology (Villingen-Schwenningen, 2003)
- B. Sacco, A.K. Tomilin, viXra.org > Classical Physics > viXra:1210.0158
- V.A. Atsyukovsky, Efirodinamicheskie osnovy elektromagnetizma (Energoatomizdat, M., 2011) (in Russian)
- V.A. Permyakov, Elektrodinamika i tekhnika SVCh, KVCh i opticheskikh chastot, 15, (1), 30 (2007) (in Russian)
- I.M. Ageev, G.G. Shishkin, Prodol'nye volny (MAI, M., 2014) (in Russian)
- L. Tonks, I. Langmuir, Phys. Rev., 33 (2), 195 (1929). DOI: 10.1103/PhysRev.33.195
- V.L. Ginzburg, Rasprostranenie elektromagnitnykh voln v plazme (Nauka, M., 1969) (in Russian)
- V.M. Agranovich, V.L. Ginzburg, Kristalloptika s uchetom prostranstvennoy dispersii i teoriya eksitonov (Nauka, M., 1965) (in Russian)
- D.I. Bardzokas, B.A. Kudryavtsev, N.A. Senik, Rasprostranenie voln v elektromagnitouprugikh sredakh (URSS, M., 2003) (in Russian)
- M.A. Remnev, V.V. Klimov, UFN, 188 (2), 169 (2018) (in Russian). DOI: 10.3367/UFNr.2017.08.038192
- J.R. Bray, M.C. Britton, Europhys. Lett., 66 (1), 153 (2004). DOI: 10.1209/epl/i2003-10144-9
- A.N. Abramov, V.A. Permyakov, S.V. Permyakov, Zhurnal radioelektroniki, N 10 (2015) (in Russian)
- A.K. Tomilin, A.F. Lukin, A.N. Gul'kov, Pis'ma v ZhTF, 47 (11), 48 (2021) (in Russian). DOI: 10.21883/PJTF.2021.11.51009.18710
- K. Schlegel, M. Weltweite, Fullekrug Physik in unserer Zeit, 33 (6), 256 (2002)
- A.K. Tomilin, Obobshchennaya elektrodinamika (Triumf, M., 2020) (in Russian). DOI: 10.32986/978-5-93673-270-6-2020-04
- N. Tesla, Apparatus for producing electric currents of high frequency and potential, US patent 586176 (1896)
- E.L. Feyberg, Rasprostranenie radiovoln vdol' zemnoy poverkhnosty, 2-e izd. (Nauka, M., 1999) (in Russian)
- L.M. Hively, Systems, apparatuses, and methods for generating and/or utilizing scalar-longitudinal waves, patent US 9306527B1 (2016)
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