Higgsov bozon

	Higgsov bozon
	Jedan od mogućih načina da se Higgsov bozon dobije na Velikom hadronskom sudaraču ili LHC.
Kompozicija:	Elementarna čestica
Čestična statistika:	Bozoni
Status:	Nova čestica mase 125 GeV otkrivena je 2012., a kasnije je potvrđen Higgsov bozon preciznijim mjerenjima.
Simbol(i):	H0
Teoretiziran:	Robert Brout, F. Englert, P. Higgs, Gerald Guralnik, Carl Richard Hagen i Tom Kibble (1964.)
Otkriven:	LHC (2011. – 2013.)
Masa:	125,18 ± 0,16 GeV/c2
Vrijeme poluraspada:	1,56×10−22 s (predviđeno)
Električni naboj:	0 e
Boja:	0
Spin:	0
Slabi izospin:	− 1/2
Slab hipernaboj:	+1
Paritet:	+1

U standardnom modelu fizike elementarnih čestica, Higsov bozon hipotetička je elementarna čestica, bozon, koja je kvant Higsovog polja.^[4]^[5] Polje i čestica omogućavaju testiranje hipoteze o poreklu mase elementarnih čestica. U popularnoj kulturi, Higsov bozon takođe se naziva i Božijom česticom, naziv koji mnogi naučnici preziru, nakon naslova knjige fizičara i nobelovca Leona Ledermana iz 1993. U ovoj knjizi autor govori da je otkriće čestice značajno za konačno razumijevanje strukture tvari.

↑ "LHC experiments delve deeper into precision". Media and Press relations (Press release). CERN. 11 July 2017. Retrieved 2017-07-23.
↑ M. Tanabashi et al. (Particle Data Group) (2018). „Review of Particle Physics”. Physical Review D 98 (3): 030001. Bibcode 2018PhRvD..98c0001T. DOI:10.1103/PhysRevD.98.030001.
↑ CMS Collaboration (2017). „Constraints on anomalous Higgs boson couplings using production and decay information in the four-lepton final state”. Physics Letters B 775 (2017): 1– 24. arXiv:1707.00541. Bibcode 2017PhLB..775....1S. DOI:10.1016/j.physletb.2017.10.021.
↑ Onyisi, P. (23. 10. 2012). „Higgs boson FAQ”. University of Texas ATLAS group. Pristupljeno 8. 1. 2013.
↑ Strassler, M. (12. 10. 2012). „The Higgs FAQ 2.0”. ProfMattStrassler.com. Pristupljeno 8. 1. 2013. »[Q] Why do particle physicists care so much about the Higgs particle?
[A] Well, actually, they don’t. What they really care about is the Higgs field, because it is so important. [emphasis in original]«

[1] "LHC experiments delve deeper into precision". Media and Press relations (Press release). CERN. 11 July 2017. Retrieved 2017-07-23.

[2] M. Tanabashi et al. (Particle Data Group) (2018). „Review of Particle Physics”. Physical Review D 98 (3): 030001. Bibcode 2018PhRvD..98c0001T. DOI:10.1103/PhysRevD.98.030001.

[3] CMS Collaboration (2017). „Constraints on anomalous Higgs boson couplings using production and decay information in the four-lepton final state”. Physics Letters B 775 (2017): 1– 24. arXiv:1707.00541. Bibcode 2017PhLB..775....1S. DOI:10.1016/j.physletb.2017.10.021.

[OnyisiFAQ-4] Onyisi, P. (23. 10. 2012). „Higgs boson FAQ”. University of Texas ATLAS group. Pristupljeno 8. 1. 2013.

[strasslerFAQ2-5] Strassler, M. (12. 10. 2012). „The Higgs FAQ 2.0”. ProfMattStrassler.com. Pristupljeno 8. 1. 2013. »[Q] Why do particle physicists care so much about the Higgs particle?
[A] Well, actually, they don’t. What they really care about is the Higgs field, because it is so important. [emphasis in original]«

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Higgsov bozon

Jedan od mogućih načina da se Higgsov bozon dobije na Velikom hadronskom sudaraču ili LHC.
Kompozicija:	Elementarna čestica
Čestična statistika:	Bozoni
Status:	Nova čestica mase 125 GeV otkrivena je 2012., a kasnije je potvrđen Higgsov bozon preciznijim mjerenjima.^[1]
Simbol(i):	H⁰
Teoretiziran:	Robert Brout, F. Englert, P. Higgs, Gerald Guralnik, Carl Richard Hagen i Tom Kibble (1964.)
Otkriven:	LHC (2011. – 2013.)
Masa:	125,18 ± 0,16 GeV/c² ^[2]
Vrijeme poluraspada:	1,56×10⁻²² s (predviđeno)
Električni naboj:	0 e
Boja:	0
Spin:	0 ^[3]
Slabi izospin:	− 1/2
Slab hipernaboj:	+1
Paritet:	+1

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Higgsov bozon

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