Türkçe

Research Progress: Extreme Ultraviolet Photolithography

1096
2024-12-09 14:02:28
Çeviriyi gör

Recently, the semiconductor industry has adopted Extreme Ultraviolet Lithography (EUVL) technology. This cutting-edge photolithography technology is used for the continuous miniaturization of semiconductor devices to comply with Moore's Law. Extreme ultraviolet lithography (EUVL) has become a key technology that utilizes shorter wavelengths to achieve nanoscale feature sizes with higher accuracy and lower defect rates than previous lithography methods.

Recently, Dimitrios Kazazis, Yasin Ekinci, and others from the Paul Scherrer Institute in Switzerland published an article in Nature Reviews Methods Primers, comprehensively exploring the technological evolution from deep ultraviolet to extreme ultraviolet (EUV) lithography, with a focus on innovative methods for source technology, resist materials, and optical systems developed to meet the strict requirements of mass production.

Starting from the basic principles of photolithography, the main components and functions of extreme ultraviolet EUV scanners are described. It also covers exposure tools that support research and early development stages. Key themes such as image formation, photoresist platforms, and pattern transfer were explained, with a focus on improving resolution and yield. In addition, ongoing challenges such as random effects and resist sensitivity have been addressed, providing insights into the future development direction of extreme ultraviolet lithography EUVL, including high numerical aperture systems and novel resist platforms.

The article aims to provide a detailed review of the current extreme ultraviolet lithography EUVL capabilities and predict the future development and evolution of extreme ultraviolet lithography EUVL in semiconductor manufacturing.

 



Figure 1: Basic steps of photolithography process.



Figure 2: Extreme ultraviolet scanner and its main components.



Figure 3: Process window of photoresist.



Figure 4: Contrast curve of chemically amplified resist exposed to extreme ultraviolet light.



Figure 5: Typical faults in photolithography patterning of dense line/spacing patterns and contact hole arrays.



Figure 6: In 2025-2026, with the high numerical aperture, NA systems will enter mass production of high-volume manufacturing (HVM). In the next decade, lithography density scaling will continue to increase.



Figure 7: Chip yield curves plotted as a function of source power divided by dose for high numerical aperture NA and low numerical aperture NA extreme ultraviolet scanners.

Source: Yangtze River Delta Laser Alliance

İlgili öneriler
  • Shanghai Optics and Machinery Institute has made progress in femtosecond fiber lasers based on twisted Sagnac interferometer mode locking

    Recently, the research team of the Aerospace Laser Technology and System Department of the Shanghai Institute of Optics and Fine Mechanics, Chinese Academy of Sciences, proposed a torsional Sagnac interferometer and applied it to the fiber laser system, realizing mode locking self starting and pulse shaping. The relevant research achievements were published in the Journal of Lightwave Technology u...

    2024-04-22
    Çeviriyi gör
  • Polish and Taiwan, China scientists are committed to new 3D printing dental implants

    Researchers from Wroclaw University of Technology and Taipei University of Technology in China are developing dental implants made from 3D printed ceramic structures connected to metal cores. Due to the use of biodegradable magnesium, bone tissue will gradually grow into such implants."The result will be a composite implant that can replace human teeth. Its scaffold is made of aluminum oxide...

    2024-04-17
    Çeviriyi gör
  • Intel: Has acquired most of ASML's NA extreme ultraviolet lithography equipment in the first half of next year

    According to Korean media reports, Intel has acquired most of the high numerical aperture (NA) extreme ultraviolet (EUV) lithography equipment manufactured by ASML in the first half of next year.ASML plans to produce 5 high NA EUV lithography equipment this year, all of which will be supplied to Intel.They stated that ASML has an annual production capacity of approximately 5-6 High Numerical Apert...

    2024-05-21
    Çeviriyi gör
  • Dr. Torsten Derr will be appointed as the CEO of SCHOTT Group on January 1, 2025

    November 25, 2024, Mainz, GermanyStarting from January 1, 2025, Dr. Torsten Derr will take over as the CEO of SCHOTT Group.The new CEO of SCHOTT Group previously served as the CEO of SGL Carbon SE.Starting from January 1, 2025, Dr. Torsten Derr will officially assume the position of CEO of SCHOTT Group. SCHOTT Group announced in October 2024 that Dr. Torsten Derr will succeed Dr. Frank Heinrich, w...

    2024-11-27
    Çeviriyi gör
  • SPIE Optics and Photonics 2025: Plenary Session Evaluation of Organic Materials for Optoelectronics

    The use of organic materials in photonics has given rise to many device innovations for applications in sensing, semiconductors, lasers, and more. The Organic Photonics + Electronics plenary session at SPIE Optics + Photonics 2025, taking place through 7 August in San Diego, California, sampled some current research efforts in this subfield, and looked at developments on the horizon.Ruth Shinar d...

    08-06
    Çeviriyi gör