Helium-Ion Microscopy Fires the Imagination of Researchers in U.S. and Japan
The Pacific Northwest National Laboratory (PNNL) and The National Institute of Advanced Industrial Science and Technology (AIST) have recently ordered ORION® PLUS Helium-Ion Microscopes from Carl Zeiss.
PEABODY, Massachusetts, USA—March 31, 2010. – The Pacific Northwest National Laboratory (PNNL), located in Richland, Washington, is bringing an ORION® PLUS instrument into the U.S. Department of Energy’s Environmental Molecular Sciences Laboratory as a resource. And, in Tsukuba, Japan, the National Institute of Advanced Industrial Science and Technology (AIST) has selected an ORION PLUS for their new Nanodevice Innovation Research Center. These installations provide further evidence of a growing reliance on helium-ion microscopy for the most demanding research in materials, life science and semiconductor applications.
Photo Caption: One of EMSL’s priorities is to research mineral to mineral and mineral to microbial filaments. This ORION image shows mineral filaments interpenetrating porous silicon. Even though the uncoated, insulating sample suffered from charging when imaged by a scanning electron microscope (SEM), the helium-ion microscope produced superior resolution images with no charging problems.
PNNL has become the first US national lab to acquire a ZEISS ORION PLUS helium-ion microscope. One of the Department of Energy’s (DOE’s) ten national laboratories, managed by DOE’s Office of Science, PNNL offers an open, collaborative environment for scientific discovery to researchers around the world. “We are very excited to be adding a helium-ion microscope to our arsenal of leading-edge scientific instruments,” said Shuttha Shutthanadan, scientist at the Environmental Molecular Sciences Laboratory (EMSL), a national scientific user facility located at PNNL. “Basically, helium-ion microscopy improves our vision at the nanoscale, allowing us to see things we could never see before. Having access to an instrument that provides world-record spatial resolution imaging, plus high image contrast and large depth of field will enable our users to accelerate their innovations.”
Weilin Jiang, EMSL scientist, adds, “Perhaps one of the greatest advantages of helium-ion microscopy is the ability to clearly image uncoated insulating materials.” This circumvents the time consuming, resolution diminishing practice of coating a sample to deal with its charging. The tool is scheduled for delivery at the end of March of this year.
At the prestigious AIST in Tsukuba, Japan, formal acceptance of their new ORION PLUS microscope was completed on February 8 of this year. The AIST system is outfitted with all of the available options, including the recently developed Spectra Detector. A newly designed Gas Injection System will be added shortly. “Installation and acceptance were completed rapidly and without any major issues, including a dramatic trip by crane to a fourth floor balcony of the AIST building,” reports David Voci, Carl Zeiss SMT’s director of business development for the ORION product. AIST will use the tool in support of their research into next generation semiconductor technology, as well as for clean energy applications.
Research topics identified include Low K dielectrics, EUV photomask metrology, nano-imprint lithography, carbon nanotube and graphene device research, as well as applications in support of solar and fuel cell research. The instrument is situated in a user facility that eventually will be available to all AIST researchers for a broad range of uses from semiconductor to life science applications. “The AIST system was the first ORION PLUS microscope delivered that was designed and built to achieve the 0.35nm probe size specification. The EMSL ORION PLUS instrument is the second tool of this generation, and we are confident that our production and field service team will accomplish this installation equally well as with the AIST system,” comments Voci.
The Carl Zeiss Group is a leading group of companies operating worldwide in the optical and opto-electronic industries that generates revenues totaling around EUR 2.1 billion (2008/09). Carl Zeiss offers innovative solutions for the future-oriented markets of Medical and Research Solutions, Industrial Solutions and Lifestyle Products. The Carl Zeiss Group has approximately 13,000 employees worldwide, including more than 8,000 in Germany. The Carl Zeiss business groups hold leading positions in their markets. Carl Zeiss AG, Oberkochen, is fully owned by the Carl Zeiss Stiftung (Carl Zeiss Foundation).
Carl Zeiss SMT
Carl Zeiss SMT AG comprises the Semiconductor Technology Group of the Carl Zeiss Group. Carl Zeiss SMT is one of the leading manufacturers of lithography optics and light, electron and ion-optical inspection, analysis and measuring systems. The company offers a broad spectrum of application and service solutions for the fields of semiconductor technology, nanotechnology, materials research and life sciences. Carl Zeiss SMT AG is headquartered in Oberkochen, Germany. Other sites are located in Germany, the UK, France, the USA, Israel and Singapore. The company has a global workforce of over 2,500 people and generated revenues of just under EUR 400 million in fiscal year 2008/09. Carl Zeiss SMT AG is fully owned by Carl Zeiss AG, Oberkochen.
Further information is available at www.smt.zeiss.com
Pacific Northwest National Laboratory
The Pacific Northwest National Laboratory is a Department of Energy Office of Science national laboratory where interdisciplinary teams advance science and technology and deliver solutions to America’s most intractable problems in energy, national security and the environment. PNNL employs 4,700 staff, has a $1.1 billion annual budget, and has been managed by Ohio-based Battelle since the lab’s inception in 1965.
Environmental Molecular Sciences Laboratory
EMSL, the Environmental Molecular Sciences Laboratory, is a national scientific user facility sponsored by the Department of Energy’s Office of Science, Biological and Environmental Research program that is located at Pacific Northwest National Laboratory. EMSL offers an open, collaborative environment for scientific discovery to researchers around the world. EMSL’s technical experts and suite of custom and advanced instruments are unmatched. Its integrated computational and experimental capabilities enable researchers to realize fundamental scientific insights and create new technologies.
National Institute of Advanced Industrial Science and Technology
The National Institute of Advanced Industrial Science and Technology, led by President Dr. Nomakuchi, is a public institution that is funded largely by the Japanese government. The present AIST is a rather new research organization established in 2001, however, AIST and its predecessor organizations have been contributing to society through continuous advancement in technologies and support of Japanese industries since 1876.
Headquarters of AIST are located in Tsukuba and Tokyo. AIST has over 50 autonomous research units in various innovative research fields, and the units are located at 9 research bases and several sites (smaller than research bases) of AIST all over Japan. About 2500 research scientists (about 2000 with tenure) and well over 3000 visiting scientists, post doctoral fellows and students are working at AIST. About 700 permanent administrative personnel and many temporary staff support the research work of AIST.
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