Türkçe

Scientists are using lasers to create lunar paving blocks

865
2023-10-14 10:46:24
Çeviriyi gör

Original Hal Bowman 9000 Scientific Razor
The 3 kW laser power output on a 45 mm laser spot consolidates the interlocking structure within the EAC-1A powder bed. Source: Jens Kinst, BAM

By using lasers to melt lunar soil into stronger layered materials, it is possible to build paved roads and landing pads on the moon, according to a concept validation study in a scientific report. Although these experiments were conducted on Earth using alternatives to lunar dust, these findings demonstrate the feasibility of the technology and indicate that it can be replicated on the moon. However, according to the author, further work may be needed to improve this process.

Lunar dust poses a significant challenge to lunar rovers, as due to low gravity levels, they often float around and may damage equipment when disturbed. Therefore, infrastructure such as roads and landing pads is crucial for alleviating dust problems and promoting lunar transportation. However, the cost of transporting building materials from Earth is high, making the use of available resources on the moon crucial.

Gin é s Palomares, Miranda Fateri, and Jens G ü nster used carbon dioxide lasers to melt a fine-grained material called EAC-1A (developed by ESA as a substitute for lunar soil) to simulate how lunar dust melts into solid matter through focused solar radiation on the moon.

The author attempted laser beams of different intensities and sizes (up to 12 kW and 100 mm respectively) to create sturdy materials, although they determined that intersecting or overlapping laser beam paths could lead to cracking. They developed a strategy to use a laser beam with a diameter of 45 millimeters to generate a triangular, hollow geometric shape about 250 millimeters in size. The author suggests that these can be interlocked to form a sturdy surface on a large area of lunar soil, which can serve as roads and landing pads.

Rendered images of roads and landing pads paved on the lunar surface. Source: Liquifer Systems Group


In order to reproduce this method on the moon, the author calculated that approximately 2.37 square meters of lenses need to be transported from Earth to replace lasers as solar concentrators. The relatively small equipment size required will be an advantage for future lunar missions.

Source: Yangtze River Delta Laser Alliance

İlgili öneriler
  • Scientists have created a full spectrum white light laser with bright spot, smooth and flat spectrum, and large pulse energy characteristics

    Recently, the team led by Professor Li Zhiyuan from South China University of Technology has successfully developed a full spectrum white light laser, which has the characteristics of bright spot, smooth and flat spectrum, and large pulse energy. It can cover the ultraviolet visible infrared full spectrum of 300-5000nm, with a single pulse energy of 0.54mJ.The launch of such a full spectrum white ...

    2023-11-07
    Çeviriyi gör
  • The First Ultra Fast Laser Application Development Conference was held in Songshan Lake, Dongguan

    The First Ultra Fast Laser Application Development Conference was held in Songshan Lake, Dongguan. The first advanced attosecond laser facility in China will have 8 beam lines landing in Dongguan.Laser enjoys the reputation of being the "fastest knife," "most accurate ruler," and "brightest light," among others. As an important research direction in the laser field, ultrafast laser has always been...

    2023-10-28
    Çeviriyi gör
  • The green and blue laser diode series provides higher beam quality

    Rutronik has expanded its optoelectronic product portfolio by introducing green and blue laser diodes packaged in metal cans TO38 and TO56 using AM OSRAM. They leave a deep impression with improved beam quality and stricter electro-optic tolerances. The power level of the laser diode ranges from 10mW to 100mW. Diodes such as PLT3 520FB and PLT5 450GB are now available on the market.The flexibility...

    2024-01-31
    Çeviriyi gör
  • E&R Engineering launches a mold cutting solution at Semicon SEA 2024

    Advanced laser and plasma solution provider E&R Engineering Corp. has confirmed that they will participate in the Semiconductor SEA 2024 event held in Kuala Lumpur, Malaysia. With 30 years of focus in the semiconductor industry, E&R has developed a wide range of plasma and laser technologies. At Semicon SEA 2024, they will showcase their latest solutions, including:Plasma Cutting - Small M...

    2024-05-20
    Çeviriyi gör
  • The Stanford University team has manufactured the first practical chip grade titanium sapphire laser

    According to a report in Nature on June 26th, a team from Stanford University in the United States has developed a titanium sapphire laser on a chip. Whether in terms of scale efficiency or cost, this achievement is a huge progress. Image source: Nature websiteTitanium sapphire lasers are indispensable in many fields such as cutting-edge quantum optics, spectroscopy, and neuroscience, but they ...

    2024-07-01
    Çeviriyi gör