Echiche Widom-Larsen

Echiche Widom-Larsen bụ nkọwa a tụrụ anya maka mmeghachi omume nuklia dị ala (LENR) nke Allan Widom na Lewis Larsen mepụtara na 2005. N'ime akwụkwọ ahụ na-akọwa echiche ahụ, ha na-ekwu na a na-emepụta neutrons ultra low momentum n'ime ngwa ngwakọta oyi. ^[1] n'oge mmekọrịta na-adịghị ike mgbe protons na-ejide electrons "dị arọ" site na elu metallic hydride. ^[2] Otu isi iyi kwenyere ^[3] ọ bụ "ihe na-agaghị ekwe omume na ike eletrọn maka mmepụta neutron nwere ike iru na usoro lattice metal na-enweghị nnukwu ike".

Yogendra Srivastava gbasawanyere echiche ahụ na Widom na Larsen na 2014, bụ ndị gara n'ihu na-atụ aro na ọ nwere ike ịbụ nkọwa maka neutrons hụrụ na nnwale waya na-agbawa, corona anyanwụ na flares, na mmepụta neutron na égbè eluigwe. ^[4]. ^[5]^[6] ^[7] dị, a chọrọ ọnụ ọgụgụ na-enweghị isi nke electrons nwere onwe ha maka mmepụta neutron ka ọ bụrụ akụkụ dị mkpa nke neutrons égbè eluigwe, na-ewepu nkọwa ahụ.

Edensibia[dezie | dezie ebe o si]

↑ Anderson (23 October 2012). Big Idea: Bring Back the "Cold Fusion" Dream. A new theory may explain the notorious cold fusion experiment from two decades ago, reigniting hopes of a clean-energy breakthrough..
↑ Widom (April 2006). "Ultra Low Momentum Neutron Catalyzed Nuclear Reactions on Metallic Hydride Surfaces". The European Physical Journal C 46 (1): 107–111. DOI:10.1140/epjc/s2006-02479-8.
↑ Tennfors (15 February 2015). "On the idea of low energy nuclear reactions in metallic lattices by producing neutrons from protons capturing "heavy" electrons". The European Physical Journal Plus 128 (2): 15. DOI:10.1140/epjp/i2013-13015-3. Retrieved on 24 March 2017.
↑ Srivastava (October 2014). "A primer for electroweak induced low-energy nuclear reactions". Pramana. Retrieved on 24 March 2017.
↑ Babich (8 October 2015). "Analysis of a laboratory experiment on neutron generation by discharges in the open atmosphere". Physical Review C 92 (4): 044602. DOI:10.1103/PhysRevC.92.044602.
↑ Babich (2014). "Fundamental processes capable of accounting for the neutron flux enhancements in a thunderstorm atmosphere". Journal of Experimental and Theoretical Physics 118 (3): 375–383. DOI:10.1134/S1063776114030017.
↑ Babich (13 May 2014). "Analysis of fundamental interactions capable of producing neutrons in thunderstorms". Physical Review D 89 (9): 093010. DOI:10.1103/PhysRevD.89.093010.

[1] Anderson (23 October 2012). Big Idea: Bring Back the "Cold Fusion" Dream. A new theory may explain the notorious cold fusion experiment from two decades ago, reigniting hopes of a clean-energy breakthrough..

[WLT-2] Widom (April 2006). "Ultra Low Momentum Neutron Catalyzed Nuclear Reactions on Metallic Hydride Surfaces". The European Physical Journal C 46 (1): 107–111. DOI:10.1140/epjc/s2006-02479-8.

[3] Tennfors (15 February 2015). "On the idea of low energy nuclear reactions in metallic lattices by producing neutrons from protons capturing "heavy" electrons". The European Physical Journal Plus 128 (2): 15. DOI:10.1140/epjp/i2013-13015-3. Retrieved on 24 March 2017.

[Pramana-4] Srivastava (October 2014). "A primer for electroweak induced low-energy nuclear reactions". Pramana. Retrieved on 24 March 2017.

[PRC-5] Babich (8 October 2015). "Analysis of a laboratory experiment on neutron generation by discharges in the open atmosphere". Physical Review C 92 (4): 044602. DOI:10.1103/PhysRevC.92.044602.

[JETP-6] Babich (2014). "Fundamental processes capable of accounting for the neutron flux enhancements in a thunderstorm atmosphere". Journal of Experimental and Theoretical Physics 118 (3): 375–383. DOI:10.1134/S1063776114030017.

[PRD-7] Babich (13 May 2014). "Analysis of fundamental interactions capable of producing neutrons in thunderstorms". Physical Review D 89 (9): 093010. DOI:10.1103/PhysRevD.89.093010.

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