The National Synchrotron Light Source (NSLS) at

Brookhaven National Laboratory Brookhaven National Laboratory (BNL) is a United States Department of Energy national laboratory located in Upton, Long Island, and was formally established in 1947 at the site of Camp Upton, a former U.S. Army base and Japanese internment c ...

(BNL) in Upton, New York was a national user research facility funded by the U.S. Department of Energy (DOE). Built from 1978 through 1984, and officially shut down on September 30, 2014,Last Light at NSLS
/ref> the NSLS was considered a second-generation synchrotron. The NSLS experimental floor consisted of two electron storage rings: an

X-ray An X-ray, or, much less commonly, X-radiation, is a penetrating form of high-energy electromagnetic radiation. Most X-rays have a wavelength ranging from 10 picometers to 10 nanometers, corresponding to frequencies in the range 30&nb ...

ring and a VUV (vacuum ultraviolet) ring which provided intense, focused light spanning the electromagnetic spectrum from the infrared through X-rays. The properties of this light and the specially designed experimental stations, called

beamline In accelerator physics, a beamline refers to the trajectory of the beam of particles, including the overall construction of the path segment (guide tubes, diagnostic devices) along a specific path of an accelerator facility. This part is either ...

s, allowed scientists in many fields of research to perform experiments not otherwise possible at their own laboratories.

History

Ground was broken for the NSLS on September 28, 1978. The VUV ring began operations in late 1982 and the X-ray ring was commissioned in 1984. In 1986, a second phase of construction expanded the NSLS by , which added offices, laboratories and room for new experimental equipment. After 32 years of producing synchrotron light, the final stored beam was dumped at 16.00 EDT on 30 September 2014, and NSLS was officially shut down. During the construction of the NSLS, two scientists, Renate Chasman and George Kenneth Green, invented a special periodic arrangement of magnetic elements (a magnetic lattice) to provide optimized bending and focusing of electrons. The design was called the Chasman–Green lattice, and it became the basis of design for every synchrotron storage ring. Storage rings are characterized by the number of straight sections and bend sections in their design. The bend sections produce more light than the straight sections due to the change in

angular momentum In physics, angular momentum (rarely, moment of momentum or rotational momentum) is the rotational analog of linear momentum. It is an important physical quantity because it is a conserved quantity—the total angular momentum of a closed syst ...

of the electrons. Chasman and Green accounted for this in their design by adding insertion devices, known as wigglers and undulators, in the straight sections of the storage ring. These insertion devices produce the brightest light among the sections of the ring and thus,

s are typically built downstream from them.

VUV ring

Beamline at Brookhaven National Laboratory

The VUV ring at the National Synchrotron Light Source was one of the first of the 2nd generation light sources to operate in the world. It was initially designed in 1976 and commissioned in 1983. During the Phase II upgrade in 1986, two insertion wigglers/undulators were added to the VUV ring, providing the highest brightness source in the vacuum ultraviolet region until the advent of 3rd generation light sources.

X-ray ring

The X-ray ring at the National Synchrotron Light Source was one of the first storage rings designed as a dedicated source of synchrotron radiation. The final lattice design was completed in 1978 and the first stored beam was obtained in September 1982. By 1985, the experimental program was in a rapid state of development, and by the end of 1990, the Phase II beamlines and insertion devices were brought into operation.

Design

Electrons generate the synchrotron radiation that was used at the end stations of beamlines. The electrons are first produced by a 100

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triode electron gun. These electrons then proceeded through a linear accelerator (linac), which got them up to 120

MeV In physics, an electronvolt (symbol eV, also written electron-volt and electron volt) is the measure of an amount of kinetic energy gained by a single electron accelerating from rest through an electric potential difference of one volt in vacu ...

. Next, the electrons entered a booster ring, where their energy was increased to 750 MeV, and were then injected into either the VUV ring or the X-ray ring. In the VUV ring, the electrons were further ramped up to 825 MeV and electrons in the X-ray ring were ramped to 2.8 GeV. Once in the ring, VUV or X-ray, the electrons orbit and lose energy as a result of changes in their

, which cause the expulsion of photons. These photons are deemed white light, i.e.

polychromatic Polychrome is the "practice of decorating architectural elements, sculpture, etc., in a variety of colors." The term is used to refer to certain styles of architecture, pottery or sculpture in multiple colors. Ancient Egypt Colossal statu ...

, and are the source of synchrotron radiation. Before being used in a beamline endstation, the light is

collimated A collimated beam of light or other electromagnetic radiation has parallel rays, and therefore will spread minimally as it propagates. A perfectly collimated light beam, with no divergence, would not disperse with distance. However, diffraction p ...

before reaching a monochromator or series of monochromators to get a single and fixed wavelength. During normal operations, the electrons in the storage rings lost energy and as such, the rings were re-injected every 12 (X-ray ring) and 4 (VUV ring) hours. The difference in time arose from the fact that VUV light has a larger wavelength and thus has lower energy which leads to faster decay, while the X-rays have a very small wavelength and are high energy. This was the first synchrotron to be controlled using microprocessors.

Facilities

The UV ring had 19 beamlines, while the X-ray ring had 58 beamlines. The beamlines were operated and funded in numerous ways. However, since the NSLS was a user facility, any scientist that submitted a proposal could be granted beamtime after peer-review. There were two types of beamlines at the NSLS: Facility Beamlines (FBs), which were operated by the NSLS staff and reserved a minimum of 50 percent of their beamtime for users, and Participating Research Team (PRT) beamlines, which were operated and staffed by external groups and reserved at least 25 percent of their beamtime for users. Each X-ray

had an endstation called a hutch. These are large enclosures made of

radiation shielding Radiation protection, also known as radiological protection, is defined by the International Atomic Energy Agency (IAEA) as "The protection of people from harmful effects of exposure to ionizing radiation, and the means for achieving this". Exposur ...

materials, such as steel and leaded glass, to protect the users from the ionizing radiation of the beam. On the X-ray floor, many of the experiments conducted used techniques such as X-ray diffraction, high-resolution

powder diffraction Powder diffraction is a scientific technique using X-ray, neutron, or electron diffraction on powder or microcrystalline samples for structural characterization of materials. An instrument dedicated to performing such powder measurements is call ...

(PXRD),

XAFS X-ray absorption fine structure (XAFS) is a specific structure observed in X-ray absorption spectroscopy (XAS). By analyzing the XAFS, information can be acquired on the local structure and on the unoccupied local electronic states. Atomic spectr ...

, DAFS (X-ray diffraction anomalous fine structure), WAXS, and SAXS. On the VUV ring, the endstations were usually UHV ( ultra-high vacuum) chambers that were used to conduct experiments using methods such as XPS, UPS, LEEM, and

NEXAFS X-ray absorption near edge structure (XANES), also known as near edge X-ray absorption fine structure (NEXAFS), is a type of absorption spectroscopy that indicates the features in the X-ray absorption spectra (X-ray absorption spectroscopy, XAS) o ...

. In some

s, there were other analytical tools used in conjunction with synchrotron radiation, such as a

mass spectrometer Mass spectrometry (MS) is an analytical technique that is used to measure the mass-to-charge ratio of ions. The results are presented as a '' mass spectrum'', a plot of intensity as a function of the mass-to-charge ratio. Mass spectrometry is us ...

, a high-power

laser A laser is a device that emits light through a process of optical amplification based on the stimulated emission of electromagnetic radiation. The word "laser" is an acronym for "light amplification by stimulated emission of radiation". The fi ...

, or a gas chromatography mass spectrometer. These techniques helped supplement and better quantify the experiments carried out at the endstation.

Achievements and statistics

Nobel prizes

In 2003,

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won the

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for deciphering the structure of the neuronal ion channel. His work was in part conducted at the NSLS. In 2009,

Venkatraman Ramakrishnan Venkatraman Ramakrishnan (born 1952) is an Indian-born British and American structural biologist who shared the 2009 Nobel Prize in Chemistry with Thomas A. Steitz and Ada Yonath, "for studies of the structure and function of the ribosome" ...

and Thomas A. Steitz , and Ada E. Yonath won the Nobel Prize in Chemistry for imaging the ribosome with atomic resolution through their use of x-ray crystallography at the NSLS and other synchrotron light sources.

User statistics

The National Synchrotron Light Source hosted more than 2,200 users from 41 U.S. states and 30 other countries in 2009. In 2009, there were 658 journal publications and 764 total publications including journal publications, books, patents, thesis, and reports.

NSLS-II

The NSLS was permanently shutdown on September 30, 2014, after more than 30 years of service. It was replaced by the NSLS-II, which was designed to be 10,000 times brighter.

References

External links

Original NSLS web pageBNL: National Synchrotron Light Source II (NSLS-II)BNL Photon Sciences: About NSLS-IIBrookhaven National Laboratory – a passion for discoveryLightsources.org
{{authority control Brookhaven National Laboratory Particle physics facilities Synchrotron radiation facilities