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09/03/2020 14:44

Producing Nanostructures Cost-Effectively

Petra Nolis M.A. Marketing & Kommunikation
Fraunhofer-Institut für Lasertechnik ILT

    How can structures smaller than one micrometer be generated? And how can even smaller structures of less than 100 nanometers be produced without great effort? Scientists at the Fraunhofer Institute for Laser Technology ILT have developed several technologies to answer such questions. With these technologies, they can simulate, produce and measure periodic microstructures. They use phase-shifting transmission masks that can efficiently generate nanostructures down to 28 nanometers.

    For over 50 years, the density of transistors on integrated circuits has doubled approximately every two years. Adhering to this law, formulated by Gordon Moore, is made possible by ever new advances in microlithography. The technical progress behind it is immense. However, in the meantime, the system technology required to produce the smallest structures has also become immense. A microlithography system of the latest generation costs well over 100 million dollars and weighs 180 tons.

    »To counter this trend, we are developing technologies for the production of nanostructures that start-ups or medium-sized companies can also afford«, says Dr. Serhiy Danylyuk, team leader of EUV and DUV Technology at Fraunhofer ILT in Aachen, describing the strategy of his working group.

    Sub-micrometer structuring of surfaces with deep-UV lasers

    The basic idea is to generate periodic structures via the interference effects of coherent radiation, like the achromatic Talbot effect. In the near field, i.e. less than 500 µm behind a mask, an intensity distribution is created with which microlithographic structures can be produced.

    Using a KrF excimer laser at a wavelength of 248 nm, scientists at Fraunhofer ILT can generate structures with a period of several hundred nanometers. They have tested this with a LEAP150K laser system from Coherent, installed in the Excimer Lab of the institute. In a photoresist, 180 nm wide lines can be generated with a period of 600 nm. With higher energies of 250 mJ/cm², silicon on glass can also be ablated with similar dimensions. Furthermore, this technology is well suited for the ablation of PET plastic surfaces on a 300 nm scale. 

    Discharge-based EUV source for structures smaller than 100 nm

    The principle also works with wavelengths in the extreme ultraviolet (EUV). The Aachen-based institute has developed its own beam source for this purpose, the »FS5440«. Based on a gas discharge, the source can generate the required radiation at 13.5 nm wavelength. It is considerably more compact than the laser-based EUV source used in large-scale industrial facilities. Nevertheless, the performance is more than sufficient for many applications in the production or measurement of nanostructures.

    The EUV source is equipped with power and spectrum monitoring and generates up to 40 W at 13.5 nm in +/-1 percent bandwidth. The available intensity in the mask plane is more than 0.1 mW/cm². Thus, wafers with a diameter of up to 100 mm can be processed in Fraunhofer ILT's facility. In the test, structures with a size of 28 nm (half pitch) were produced using the achromatic Talbot effect. This is a world record for a compact EUV system. In the future, the resolution is to be increased even further down to 10 nm.

    Focusing on medium-sized businesses

    Periodic nanostructures have various applications. For example, they are ideal for testing new resists in the EUV range. The technology developed at Fraunhofer ILT also makes it possible to create complex geometries and structures, using computer-aided lithography methods. For example, nanostructured coatings can be built on broadband reflecting mirrors for high-power lasers or nano-antennas for special plasmonic structures.

    The experts at Fraunhofer ILT aim to achieve sustainable technology development: »It is important for us to be able to offer the complete process chain«, says project manager Danylyuk. »That's why we have established many required processes in-house, including optical simulations, mask production and the quality and composition measurements of surfaces and thin layers«. That way, start-ups or interested medium-sized companies can be provided with access to this cutting-edge technology at reasonable investment costs. Further details will be presented at the online conference SPIE Photomask Technologies + EUV Lithography from September 21 to 25.


    Contact for scientific information:

    Dr. Serhiy Danylyuk
    Micro- and Nanostructuring Group
    Telephone +49 241 8906-525
    serhiy.danylyuk@ilt.fraunhofer.de

    Dipl.-Phys. Martin Reininghaus
    Group Leader, Micro- and Nanostructuring
    Telephone +49 241 8906-627
    martin.reininghaus@ilt.fraunhofer.de


    More information:

    http://www.ilt.fraunhofer.de/en


    Images

    At Fraunhofer ILT, a laboratory system for EUV has been built to process wafers with a diameter of up to 100 mm.
    At Fraunhofer ILT, a laboratory system for EUV has been built to process wafers with a diameter of u ...

    © Fraunhofer ILT, Aachen, Germany.

    The EUV source at Fraunhofer ILT delivers 40 W at 13.5 nm  (+/- 1 percent bandwidth).
    The EUV source at Fraunhofer ILT delivers 40 W at 13.5 nm (+/- 1 percent bandwidth).

    © Fraunhofer ILT, Aachen, Germany.


    Attachment
    attachment icon The nanostructures with 300 nm (left, DUV) and 28 nm (right, EUV) half-pitch (HP) – the world’s smallest structures, generated with laboratory-based EUV source.

    Criteria of this press release:
    Business and commerce, Journalists, Scientists and scholars
    Electrical engineering, Mechanical engineering, Physics / astronomy
    transregional, national
    Scientific conferences, Transfer of Science or Research
    English


     

    At Fraunhofer ILT, a laboratory system for EUV has been built to process wafers with a diameter of up to 100 mm.


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    The EUV source at Fraunhofer ILT delivers 40 W at 13.5 nm (+/- 1 percent bandwidth).


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