[
Balta. (2015). Ik gadu par vidēji 25% pieaug zibens radītu negadījumu skaits. https://www.balta.lv/lv/content/ik-gadu-par-vid%C4%93ji-25-pieaug-zibens-rad%C4%ABtunegad%C4%ABjumu-skaits
]Search in Google Scholar
[
Bazelyan, E.M., & Rayzer, Yu.P. (2001). Fizika molnii i molniyezashchity (Lightning Physics and Lightning Protection). Fizmatlit.
]Search in Google Scholar
[
E&S blog. (2019, 1 January). Why does the United States not require lightning arrestors (TVSS) on residential buildings? E&S Grounding Solutions. http://www.esgroundingsolutions.com/why-does-the-united-states-not-require-lightning-arrestors-tvss-on-residential-buildings/
]Search in Google Scholar
[
Eybert-Berard, A., Thirion, B., & Katoh, G. (1996). Lightning protection field experiment in Japan on a wind turbine plant using an E.S.E. lightning conductor. American Bookworks.
]Search in Google Scholar
[
France Paratonneres. (2018, November 11). Lightning phenomenon. https://ioniflash.com/en/lightning/
]Search in Google Scholar
[
Hartono, Z.A., & Robiah, I. (2009). ESE: The device for a modern answer to lightning protection? Queensland: University of Technologies.
]Search in Google Scholar
[
Lietuvas Republikas likums. (2009). Statybos techninis reglamentas. https://www.etar.lt/portal/lt/legalAct/TAR.361470957F85
]Search in Google Scholar
[
Lightning Protection System. (2015). Protection against lightning. https://earlystreameremission.com/en/useful-links-faq/specific-studies/. Accessed: 2018, December 27.
]Search in Google Scholar
[
LR tiesību akti. (2015). Latvijas būvnormatīvs LBN 261-15 “Ēku iekšējā elektroinstalācija.” https://likumi.lv/ta/id/274674-noteikumi-par-latvijas-buvnormativu-lbn-261-15-eku-ieksejaelektroinstalacija-
]Search in Google Scholar
[
Merigaud, C. (2016). France Paratonnerres va protéger la Tour Eiffel de la foudre. Lusine
]Search in Google Scholar
[
Nouvelle. https://www.usinenouvelle.com/article/france-paratonnerres-va-proteger-la-tour-eiffel-de-la-foudre.N388907. Accessed: 2019, January 1.
]Search in Google Scholar
[
Ozoliņš, R. A. (2004). Civilās un darba aizsardzības pamati. Rīga: LU.
]Search in Google Scholar
[
Standarts LVS EN 50468 Slodžizturības prasības iekārtām ar telesakaru pieslēgvietām pret zibens izraisītiem pārspriegumiem un pārstrāvām (2016) (Standard LVS EN 50468 Load resistance requirements for installations with telecommunications ports against surges and overcurrents caused by lightning).
]Search in Google Scholar
[
Standarts LVS EN 62305-1 Zibensaizsardzība – 1. daļa: Vispārīgie principi (2010). (Standard LVS EN 62305-1 Lightning Protection – Part 1. General Principles).
]Search in Google Scholar
[
Standarts LVS EN 62305-2 Zibensaizsardzība – 2. daļa: Risku pārvaldība (2010). (Standard LVS EN 62305-2 Lightning Protection – Part 2. RiskManagement).
]Search in Google Scholar
[
Standarts LVS EN 62305-3 Zibensaizsardzība – 3. daļa: Aizsardzība pret būvju bojājumiem un dzīvības briesmām (2010). (Standard LVS EN 62305-3 Lightning Protection – Part 3. Protection Against Damage to Buildings and Danger to Life).
]Search in Google Scholar
[
Standarts LVS EN 62305-4 Zibensaizsardzība – 4. daļa: Būvēs ierīkotas elektriskās un elektroniskās sistēmas (2010). (Standard LVS EN 62305-4 Lightning Protection – Part 4. Electrical and Electronic Systems Installed in Constructions).
]Search in Google Scholar
[
Vanzovičs, E., & Želvis, S. (2006). Pārsprieguma aizsardzības un tām izvirzāmās normatīvās prasības. Rīga: RTU.
]Search in Google Scholar