Dr. Hans-Gerd Esser Profile

Dr. Hans-Gerd Esser

Product Line Manager at Coherent LaserSystems GmbH

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Proceedings Article | 4 March 2016 Paper

Advances in 193 nm excimer lasers for mass spectrometry applications

Ralph Delmdahl, Hans-Gerd Esser, Guido Bonati

Proceedings Volume 9736, 97361P (2016) https://doi.org/10.1117/12.2212885

KEYWORDS: Excimer lasers, Mass spectrometry, Laser ablation, Ultraviolet radiation, Solids, Proteins, Laser development, Laser sources, Laser systems engineering, Pulsed laser operation, Gas lasers, Laser applications, Laser stabilization

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Ongoing progress in mass analysis applications such as laser ablation inductively coupled mass spectrometry of solid samples and ultraviolet photoionization mediated sequencing of peptides and proteins is to a large extent driven by ultrashort wavelength excimer lasers at 193 nm. This paper will introduce the latest improvements achieved in the development of compact high repetition rate excimer lasers and elaborate on the impact on mass spectrometry instrumentation. Various performance and lifetime measurements obtained in a long-term endurance test over the course of 18 months will be shown and discussed in view of the laser source requirements of different mass spectrometry tasks. These sampling type applications are served by excimer lasers delivering pulsed 193 nm output of several mJ as well as fast repetition rates which are already approaching one Kilohertz. In order to open up the pathway from the laboratory to broader market industrial use, sufficient component lifetimes and long-term stable performance behavior have to be ensured. The obtained long-term results which will be presented are based on diverse 193 nm excimer laser tube improvements aiming at e.g. optimizing the gas flow dynamics and have extended the operational life the laser tube for the first time over several billion pulses even under high duty-cycle conditions.

Proceedings Article | 1 March 2006 Paper

High repetition rate excimer laser

Hans-Gerd Esser, Helmut Schillinger

Proceedings Volume 6106, 61061I (2006) https://doi.org/10.1117/12.657948

KEYWORDS: Photomasks, Excimer lasers, Inspection, Spatial light modulators, Manufacturing, Resolution enhancement technologies, Gas lasers, Light sources, Semiconducting wafers, Pulsed laser operation

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For many years, excimer laser are well established in industry as reliable UV light sources. For each application the beam characteristics have to fulfil different requirements and demands, in terms of technology and cost efficiency. One of the biggest advantages of the excimer laser is that it generates light at DUV-wavelengths and can produce high repetition rates at the same time. Many applications benefit from these characteristics. The trend toward smaller feature sizes in microlithography requires both a shift to shorter writing wavelengths, as well as the use of special techniques for photomask manufacture. These so-called Resolution Enhancement Techniques (RET) utilize more sophisticated mask making methods, thus increasing mask manufacturing costs. Furthermore, more advanced metrology methodologies must also be employed in order to inspect RET based masks, and this inspection much often be performed at the wavelength of use (193 nm) in order to accurately identify potential errors. Excimer lasers with high repetition rates and excellent beam characteristics are used for the detection and classification of mask defects in order to maximize yields during wafer fabrication. Excimer lasers are also used with spatial light modulators (SLM) to generate photomask patterns directly. This approach, as compared to conventional e-beam photo-mask writing technology, presents a way to manage the decreasing feature sizes with low operation cost. This technique also requires an excimer laser that delivers the high repetition rates necessary to sustain adequate process through put and extremely well stabilized energy output for writing accuracy. This paper reviews the performance and technology of high repetition rate excimer lasers specifically for use in photomask inspection and optical mask writing.

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