Balavu ni ua

Ena fisiki kei fika, Balavu ni ua se gauna ni vanua ni dua na ua se cakacaka ni veigauna sa ikoya na yawa ni kena tokaruataki na ibulibuli ni ua.^[1]^[2]Ena dua tale na kena vosa, sa ikoya na yawa ena maliwa ni veitarataravi ni veitikina veiganiti ni dua ga itekitekivu ena ua, me vaka e rua na veiulunivanua veivolekati, na veibuca, se saiva takosova. Na balavu ni ua e dua na itovo ni veilakoyaki ua kei tudei ua, ka vakakina eso tale na vanua ua ivakarau.^[3]^[4] Na veibasai ni ua e balavu ni ua na vakawasoma ni vanua. Balavu ni ua e dau vakatokai na Matanivola Vakakirisi lambda (λ). Me baleta e dua na ua veisautaki, balavu ni ua e rawa ni vakaibalebaletaka na kaukauwa ni kauta na sikinala. Na vosa balavu ni ua e rawa ni vakayagataki talega ki na envelope ni tokaruataki ni ua veisautaki se ua e buli mai na veivakacacani ni vica na sinusoid.^[5]

Na balavu ni ua e vakatau ena veimama (me kena ivakaraitaki, na iceru ni duka, cagi, se wai) e lako curuma e dua na ua. Na ivakaraitaki ni ua sai koya na ua rorogo, rarama, ua wai kei sikinala ni livaliva ena veigauna ena dua na conductor. Na ua ni rorogo e dua na cagi revurevu, ia ena rarama kei na so tale na kaukauwa ni livaliva kei na vanua ni makeneta e duidui. Na ua ni wai e veisau ni cecere ni dua na yago ni wai. Ena dua na yavavala ni lattice ni karisitala, e duidui na itutu ni atomi.

Na veimataqali balavu ni ua se na veigauna me baleta na veika e yaco ena ua e vakatokai me dua na sipekitaramu. Na yaca e tekivu mai na laurai rarama sipekitaramu ia oqo e rawa ni vakayagataki ki na sipekitaramu livaliva taucoko ka vakakina ki na dua na sipektaramu rorogo se sipektaramu yavavala.

Veitikina

↑ Hecht, Eugene (1987). Optics (2nd ed.). Addison Wesley. pp. 15–16. ISBN 0-201-11609-X.
↑ Brian Hilton Flowers (2000). "§21.2 Periodic functions". An introduction to numerical methods in C++ (2nd ed.). Cambridge University Press. p. 473. ISBN 0-19-850693-7.
↑ Raymond A. Serway; John W. Jewett (2006). Principles of physics (4th ed.). Cengage Learning. pp. 404, 440. ISBN 0-534-49143-X.
↑ A. A. Sonin (1995). The surface physics of liquid crystals. Taylor & Francis. p. 17. ISBN 2-88124-995-7.
↑ Keqian Zhang; Dejie Li (2007). Electromagnetic Theory for Microwaves and Optoelectronics. Springer. p. 533. ISBN 978-3-540-74295-1. Unknown parameter |name-list-style= ignored (help)

[hecht-1] Hecht, Eugene (1987). Optics (2nd ed.). Addison Wesley. pp. 15–16. ISBN 0-201-11609-X.

[Flowers-2] Brian Hilton Flowers (2000). "§21.2 Periodic functions". An introduction to numerical methods in C++ (2nd ed.). Cambridge University Press. p. 473. ISBN 0-19-850693-7.

[Seaway-3] Raymond A. Serway; John W. Jewett (2006). Principles of physics (4th ed.). Cengage Learning. pp. 404, 440. ISBN 0-534-49143-X.

[4] A. A. Sonin (1995). The surface physics of liquid crystals. Taylor & Francis. p. 17. ISBN 2-88124-995-7.

[5] Keqian Zhang; Dejie Li (2007). Electromagnetic Theory for Microwaves and Optoelectronics. Springer. p. 533. ISBN 978-3-540-74295-1. Unknown parameter |name-list-style= ignored (help)

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