Bing Zhang
Bing Zhang | |
---|---|
Rayuwa | |
Haihuwa | Shanxi (en) , |
Karatu | |
Makaranta | Peking University (en) |
Dalibin daktanci | B-B Zhang (en) |
Sana'a | |
Sana'a | researcher (en) |
Employers | University of Nevada, Las Vegas (en) |
physics.unlv.edu… |
Bing Zhang masanin ilimin taurari ne na ƙasar Sin kuma farfesa a Jami'ar Nevada, Las Vegas . An san shi sosai saboda bincikensa a cikin fashewar gamma-ray, fashewar rediyo mai sauri, da sauran abubuwan mamaki na astrophysical. Shi ne marubucin littafin The Physics of Gamma-Ray Bursts . [1]
Rayuwa
[gyara sashe | gyara masomin]An haifi Bing Zhang a shekarar 1968 a Shanxi, China. Ya karɓi BS (1991), MS (1994), da Ph.D. (1997) daga Jami'ar Peking . Bayan abokan karatun digiri na biyu a NASA Goddard Space Flight Center da Jami'ar Jihar Pennsylvania, ya shiga Jami'ar Nevada, Las Vegas a 2004 inda yake riƙe da matsayi na koyarwa.
Sana'a
[gyara sashe | gyara masomin]Zhang masanin ilmin taurari ne da ke aiki tare da masu sa ido. Dangane da Tsarin Bayanan Kimiyyar Ilimin Taurari ya buga fiye da shigarwar 700, gami da fiye da takaddun alkalanci har zuwa 2021. An san shi da aikin ka'idar sa akan batutuwa da yawa a fagen fashewar gamma-ray (GRBs): misali, canonical afterglow lightcurve da fassarar, [2] samfurin ɓarna da sauri yana kiran haɗuwar cikin gida wanda ya haifar da haɗin maganaɗisu, [3] a injin tsakiyar magnetar [4] jirgin sama mai tsari na duniya, [5] tsarin rarrabuwa ta jiki, [6] da sauransu. An sami aikinsa yana da amfani wajen fassara rukunin GRB da ke haɓaka cikin sauri, kuma hasashe da yawa sun tabbatar da sahihancin sa. Tare da Peter Mészáros da Pawan Kumar, Zhang ya rubuta labaran bita biyu masu tasiri a cikin filin GRB. [7] [8] Ya kuma rubuta cikakken littafin, shafi 579 akan kimiyyar lissafi na GRBs, [1] wanda ke aiki azaman babban littafin karatu don ɗaliban da suka kammala karatun digiri kuma a matsayin nassi ga masu bincike a fagen GRBs.
Zhang ya shiga yakin neman zaɓe da dama tare da haɗin gwiwar masu sa ido. Wasu manyan abubuwan da Zhang ya ba da gudummawa masu mahimmanci sun haɗa da: gano ɗan gajeren ginshiƙi na GRB, [9] gano hasken X-ray bayan GRBs, [10] gano farkon tashin hankali na tashin hankali, [11] gano X -rayuwa mai wucewa yana alamar haihuwar magnetar, [12] da yin haɗi tsakanin fashewar rediyo mai sauri da magnetar Galactic. [13]
Zhang mai ba da shawara ne ta amfani da fasahar Breakthrough Starshot don yin nazarin "tauraron ɗan adam mai alaƙa". [14] Ya kuma ba da shawarar cewa fasahar sadarwa ta Intanet (CETI) na iya amfani da siginar fashewar rediyo mai sauri don sadarwa, kuma mutum zai iya amfani da masu duba rediyo na sama don sanya ƙuntatawa akan ƙimar siginar CETI. [15]
Matsayi
[gyara sashe | gyara masomin]Zhang wani zaɓaɓɓen memba ne na Ƙungiyar Jiki ta Amurka (2014). Yana rike da muƙamin Farfesa na Musamman a Sashen Kimiyyar Jiki da Ilmin Taurari, tare da zama Mataimakin Dean na Binciken Kwalejin Kimiyya a Jami'ar Nevada, Las Vegas .
Kyaututtuka da nasarori
[gyara sashe | gyara masomin]- 2020 - "Babban Nasara Goma na Shekara" a 2020 wanda Kimiyya da "Gano Goma Goma daga 2020" wanda Nature ya zaɓa (mujallar) .
- 2014 - Aboki, Ƙungiyar Jiki ta Amurka .
- 2009-Thomson Reuters kimiyyaWATCH: jerin marubutan da aka ambata sosai a fagen fashewar gamma a lokacin 1999-2009.
- 2007 - Kyautar Bruno Rossi (wanda aka raba tare da Neil Gehrels da ƙungiyar Swift).
- 2007 - Mawallafin farko na "Sabuwar Takarda Mai zafi" a fagen Kimiyyar Sararin Samaniya da aka gano ta Mahimman Manuniyar Kimiyya a cikin Yuli 2007. [2]
- 2005 - "Manyan Goma Goma na Shekara" a 2005 wanda Kimiyya ta zaɓa.
- 1998 - Kwamitin Bincike na Ƙasa (NRC) Fellowship Associate Research.
Iyali
[gyara sashe | gyara masomin]Zhang ya auri Chaohui Huang tare da yara biyu, Rachel C. Zhang da Raymond M. Zhang.
Hanyoyin waje
[gyara sashe | gyara masomin]Manazarta
[gyara sashe | gyara masomin]- ↑ 1.0 1.1 Zhang, B., "The Physics of Gamma-Ray Bursts", 2018, Cambridge University Press
- ↑ 2.0 2.1 Zhang, B. et al. "Physical Processes Shaping Gamma-Ray Burst X-Ray Afterglow Light Curves: Theoretical Implications from the Swift X-Ray Telescope Observations", The Astrophysical Journal, vol. 642, pp. 354-370 (2006)
- ↑ Zhang, B. & Yan, H. "The Internal-collision-induced Magnetic Reconnection and Turbulence (ICMART) Model of Gamma-ray Bursts", The Astrophysical Journal, vol. 726, id. 90, 23pp. (2011)
- ↑ Zhang, B. & Mészáros, P. "Gamma-Ray Burst Afterglow with Continuous Energy Injection: Signature of a Highly Magnetized Millisecond", The Astrophysical Journal Letters, vol. 552, pp. L35-L38 (2001)
- ↑ Zhang, B. & Mészáros, P. "Gamma-Ray Burst Beaming: A Universal Configuration with a Standard Energy Reservoir?", The Astrophysical Journal Letters, vol. 571, pp. 876-879 (2002)
- ↑ Zhang, B. et al. "Discerning the Physical Origins of Cosmological Gamma-ray Bursts Based on Multiple Observational Criteria: The Cases of z = 6.7 GRB 080913, z = 8.2 GRB 090423, and Some Short/Hard GRBs", The Astrophysical Journal, vol. 703, pp. 1696-1724 (2009)
- ↑ Zhang, B. & Mészáros, P. "Gamma-Ray Bursts: progress, problems & prospects", International Journal of Modern Physics A, vol. 19, pp. 2385-2472 (2004).
- ↑ Kumar, P. & Zhang, B. "The physics of gamma-ray bursts & relativistic jets", Physics Reports, Volume 561, p. 1-109 (2015).
- ↑ Gehrels, N. et al. "A short γ-ray burst apparently associated with an elliptical galaxy at redshift z = 0.225", Nature, Volume 437, Issue 7060, pp. 851-854 (2005).
- ↑ Burrows, D. N. et al. "Bright X-ray Flares in Gamma-Ray Burst Afterglows", Science, Volume 309, Issue 5742, pp. 1833-1835 (2005).
- ↑ Burrows, D. N. et al. "Relativistic jet activity from the tidal disruption of a star by a massive black hole", Nature, Volume 476, Issue 7361, pp. 421-424 (2011).
- ↑ Xue, Y. Q. et al. "A magnetar-powered X-ray transient as the aftermath of a binary neutron-star merger", Nature, Volume 568, Issue 7751, p.198-201 (2019).
- ↑ Lin, L. et al. "No pulsed radio emission during a bursting phase of a Galactic magnetar", Nature, Volume 587, Issue 7832, p.63-65 (2020).
- ↑ Zhang, B. & Li, K. "Relativistic Astronomy", The Astrophysical Journal, Volume 854, Issue 2, article id. 123, 7 pp. (2018).
- ↑ Zhang, B. "A quantitative assessment of communicating extra-terrestrial intelligent civilizations in the galaxy and the case of FRB-like signals", Frontiers of Physics, Volume 15, Issue 5, article id.54502 (2020).