Moreno Posted January 19, 2018 Share Posted January 19, 2018 Can electromagnetic waves experience tunneling effect? It is claimed that photons (light) - can. What about radio waves? If yes, what would be exactly the physical details of the process, such as maximal distance this effect can take place, from which point to which point they will tunnel, what is needed to create this effect, etc. Link to comment Share on other sites More sharing options...
swansont Posted January 19, 2018 Share Posted January 19, 2018 We already know that, ignoring absorption, a barrier will reflect some part of EM waves and pass the rest. This is standard E&M. Link to comment Share on other sites More sharing options...
Moreno Posted January 23, 2018 Author Share Posted January 23, 2018 On 1/19/2018 at 10:00 AM, swansont said: We already know that, ignoring absorption, a barrier will reflect some part of EM waves and pass the rest. This is standard E&M. Is it possible make it somehow that two remote moderate size antennas send information to each other by means of quantum tunneling only, without scattering and absorption anywhere? Link to comment Share on other sites More sharing options...
swansont Posted January 23, 2018 Share Posted January 23, 2018 Tunneling is a small-scale effect. It drops with the separation; for massive particles I think it's exponential. But I'm not even sure you'd talk about tunneling with respect to photons. You have reflection and transmission. I can't think of any cases where there's a classical potential barrier to overcome that would lead you to think that there would be no transmission. Link to comment Share on other sites More sharing options...
Moreno Posted January 23, 2018 Author Share Posted January 23, 2018 (edited) 44 minutes ago, swansont said: Tunneling is a small-scale effect. It drops with the separation; for massive particles I think it's exponential. But I'm not even sure you'd talk about tunneling with respect to photons. You have reflection and transmission. I can't think of any cases where there's a classical potential barrier to overcome that would lead you to think that there would be no transmission. For massive particles typically yes, but radio waves do not consist of massive particles. Therefore I want to know what is the distance through which can they tunnel. Edited January 23, 2018 by Moreno Link to comment Share on other sites More sharing options...
swansont Posted January 23, 2018 Share Posted January 23, 2018 39 minutes ago, Moreno said: For massive particles typically yes, but radio waves do not consist of massive particles. Therefore I want to know what is the distance through which can they tunnel. Again: tunneling is not a concept I associate with photons. We typically call this transmission. The problem lies in the fact that in any material there will be attenuation. For thin, nominally transparent materials we usually ignore this and look at the reflection vs transmission. But there is no tunneling. If that's a thing, it would be in some extreme, isolated, unusual case. It would be the exception, rather than the rule. If it happens. Link to comment Share on other sites More sharing options...
Moreno Posted January 23, 2018 Author Share Posted January 23, 2018 This article mentions something about employing quantum tunneling for long distance communication. I guess there might be some pdf version somewhere. http://ieeexplore.ieee.org/document/7945581/ Link to comment Share on other sites More sharing options...
swansont Posted January 24, 2018 Share Posted January 24, 2018 13 hours ago, Moreno said: This article mentions something about employing quantum tunneling for long distance communication. I guess there might be some pdf version somewhere. http://ieeexplore.ieee.org/document/7945581/ How does one know that the tunneling is not in the RFID tag circuitry? Link to comment Share on other sites More sharing options...
Strange Posted January 24, 2018 Share Posted January 24, 2018 Another paper by the same authors suggests they are talking about the use of tunnel diodes: http://ieeexplore.ieee.org/document/7379815/ Link to comment Share on other sites More sharing options...
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