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(Top) 1 History 2 Characteristics 3 Beamlines 4 References 5 External links

Sirius (synchrotron light source)

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Sirius
General properties
Sirius synchrotron lightsource building completed in November 2018
Accelerator type	diffraction-limited storage ring
Beam properties
Maximum energy	3 GeV
Maximum current	350 mA (currently 100 mA in top-up mode)
Physical properties
Circumference	518,4 m
Location	Campinas
Coordinates	22°48′28″S 47°03′09″W / 22.80778°S 47.05250°W / -22.80778; -47.05250
Institution	Laboratório Nacional de Luz Síncrotron
Preceded by	UVX

Sirius is a diffraction-limited storage ring synchrotron light source at the Brazilian Synchrotron Light Laboratory (LNLS) in Campinas, São Paulo State, Brazil. It has a circumference of 518.4 metres (1,701 ft), a diameter of 165 metres (541 ft), and an electron energy of 3 GeV. The produced synchrotron radiation covers the range of infrared, optical, ultraviolet and X-ray light.^[1]

Costing R$1.8 billion,^[2] it was funded by the Ministry of Science, Technology, Innovation and Communications (Brazil) and the São Paulo Research Foundation.^[1] Discussion started in 2008, and initial funding of R$2 million was granted in 2009. Construction started in 2015,^[2] and was finished in 2018. The first electron loop around the storage ring was achieved in November 2019.^[3] Its first experiments were made during COVID-19 pandemic at MANACÁ beamline, dedicated to macromolecular crystallography.^[4]

Sirius is the second synchrotron lightsource constructed in Brazil. The first one, UVX, was a second generation machine operated by LNLS from 1997 to 2019.^[5]

Main Entrance.

History[edit]

In 2008, LNLS former director José Antônio Brum asked for a preview of a new accelerator, which was then shown to the minister of science Sérgio Machado Rezende. Construction began in 2014 under the Dilma Rousseff government. Sirius is the second operational particle accelerator in Brazil, the first one being the UVX..

The first part of the complex was inaugurated on 14th November 2018 by then-president Michel Temer, and included the main building and two of the three accelerators. The second part included the third accelerator, the storage ring and the comissioning of the first beamlines. Sirius currently operates at 100mA in top-up mode^[6] and has 6 beamlines open to external researchers.

Characteristics[edit]

Sirius is used to understand the atomic structureofmolecules, which can help in the development of new drugs, new materials used in construction, oil exploration and in many other areas. The 68,000-square-meter building houses a ring-shaped, circumferential 500-meter facility. To protect people from the radiation released by machine operation, designed to be the most advanced of its kind in the world, the whole is shielded by 1 kilometer of concrete walls. Around R$1.8 billion were invested in the project, which makes it the most ambitious scientific project ever made in Brazil.

Beamlines[edit]

Currently, Sirius has 9 operational beamlines, 1 in scientific commissioning, 2 in the assembly phase and 1 the design phase.^[7]


Beamline	Main Technique	Energy Range	Status
CARNAÚBA^[8]	X-Ray Nanoscopy	2.05 - 15 keV	Operational
CATERETÊ^[9]	Coherent and Time-resolsed X-ray Scattering	3 - 24 keV	Operational
CEDRO^[10]	Circular Dichroism	3 - 9 eV	Operational
EMA^[11]	X-ray Spectroscopy and Diffraction in Extreme Conditions	2.7 - 30 keV	Operational
IMBUIA^[12]	Infrared Micro and Nanospectroscopy	70 meV - 400 meV	Operational
IPÊ^[13]	Resonant Inelastic X-ray scattering and Photoelectron spectroscopy	100 - 2000 eV	Operational
JATOBÁ^[14]	Full X-ray Scattering and PDF Analysis	40 - 70 keV	Design
MANACÁ^[15]	Macromolecular Micro and Nanocrystallography	5 - 20 keV	Operational
MOGNO^[16]	X-ray Micro- and Nanotomography	22 \| 39 \| 67.5 keV	Operation
PAINEIRA^[17]	Powder X-ray Diffraction	5 - 30 keV	Operational
QUATI^[18]	X-ray Spectroscopy with Temporal Resolution	4.5 - 35 keV	Assembly
SABIÁ^[19]	Soft X-Ray Absorption Spectroscopy and Imaging	100 - 2000 eV	Operational
SAPÊ^[20]	Angle-Resolved PhotoEmission Spectroscopy	8 - 70 eV	Commissioning
SAPUCAIA^[21]	Small Angle X-ray Scattering	6 - 17 keV	Assembly

References[edit]

^ ^a ^b "Novo acelerador de partículas será inaugurado em 2018, em Campinas". Folha de S.Paulo (in Brazilian Portuguese). 19 January 2015.

^ ^a ^b "[revista piauí] A aposta do superacelerador". revista piauí (in Brazilian Portuguese). 14 August 2017.

^ "First electron loop around Sirius' storage ring". LNLS. 25 November 2019. Retrieved 31 July 2023.

^ "First experiments are carried out on Sirius". LNLS. 7 November 2020.

^ "UVX Synchrotron Light Source – LNLS". lnls.cnpem.br.

^ "Sirius begins operating in top-up mode, ensuring more stable beamlines – LNLS". lnls.cnpem.br. Retrieved 2024-05-29.

^ "Sirius Beamlines". LNLS. 31 July 2023.

^ "Carnaúba Beamline". LNLS. 31 July 2023.

^ "Cateretê Beamline". LNLS. 31 July 2023.

^ "Cedro Beamline". LNLS. 31 July 2023.

^ "Ema Beamline". LNLS. 31 July 2023.

^ "Imbuia Beamline". LNLS. 31 July 2023.

^ "Ipê Beamline". LNLS. 31 July 2023.

^ "Jatobá Beamline". LNLS. 31 July 2023.

^ "Manacá Beamline". LNLS. 31 July 2023.

^ "Mogno Beamline". LNLS. 31 July 2023.

^ "Paineira Beamline". LNLS. 31 July 2023.

^ "Quati Beamline". LNLS. 31 July 2023.

^ "Sabiá Beamline". LNLS. 31 July 2023.

^ "Sapê Beamline". LNLS. 31 July 2023.

^ "Sapucaia Beamline". LNLS. 31 July 2023.

External links[edit]

Official website

Synchrotron radiation facilities

Africa

African Light Source (AfLS)

Americas

North

South

Sirius

Asia

East	Beijing Synchrotron Radiation Facility (BSRF) High Energy Photon Source (HEPS) NanoTerasu Taiwan Light Source Taiwan Photon Source Pohang Light Source-II (PLS-II) Photon Factory (PF) Shanghai Synchrotron Radiation Facility (SSRF) SPring-8
South	Indus 2
Southeast	Singapore Synchrotron Light Source (SSLS) Synchrotron Light Research Institute (SLRI)
West	SESAME

Europe

Oceania

Australian Synchrotron

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