Post by account_disabled on Jan 28, 2024 1:12:52 GMT -6
Space debris has become a growing challenge in recent years, and while large aerospace companies are looking for expensive and complicated solutions, fortunately, a Japanese startup called EX-Fusion has announced a revolutionary new approach. Instead of relying on lasers mounted on orbiting satellites, EX-Fusion plans to deflect space junk using laser beams launched from Earth. This technology uses a type of laser beam known as a diode-pumped solid-state laser, which will push space debris out of orbit and into a safer area where it will disintegrate upon contact with the atmosphere. Unlike other approaches, EX-Fusion's method relies on land-based facilities, reducing costs and logistical complications. The first phase of this innovative plan involves installing a laser at an observatory in Canberra.
The goal is to configure a less powerful laser Buy Phone Number List interaction and track space debris with a diameter of less than 10 cm. Once the targets are identified, the laser will be activated in the second phase to shoot them down. The laser will fire intermittently, thus pushing the selected space debris in the opposite direction to its trajectory. With this method, EX-Fusion hopes to divert space debris to a safe area where it will disintegrate upon contact with Earth's atmosphere. This solution could not only ensure the safety of the International Space Station and future space launches, but also preserve the viability of space travel in the future.
Space debris is an urgent problem that requires innovative solutions like the one proposed by EX-Fusion. As laser technology evolves and is refined, we may find new ways to address this challenge and protect our space environment. Frequently Asked Questions (FAQ) about EX-Fusion's laser technology for deflecting space debris: 1. What is EX-Fusion and what revolutionary approach are you proposing? EX-Fusion is a Japanese startup that is proposing a revolutionary approach to deflecting space debris using laser beams launched from Earth instead of lasers mounted on orbiting satellites. Frequently asked questions (FAQ): 1. What is the thermosensitive hydrogel developed by UPC researchers? The thermosensitive hydrogel developed by UPC researchers is known as 'solar absorbing hydrogel' (SAH) and has multiple applications, including the desalination of seawater with solar radiation and the creation of biomedical adhesives for semi-invasive therapies and medical diagnosis.
The goal is to configure a less powerful laser Buy Phone Number List interaction and track space debris with a diameter of less than 10 cm. Once the targets are identified, the laser will be activated in the second phase to shoot them down. The laser will fire intermittently, thus pushing the selected space debris in the opposite direction to its trajectory. With this method, EX-Fusion hopes to divert space debris to a safe area where it will disintegrate upon contact with Earth's atmosphere. This solution could not only ensure the safety of the International Space Station and future space launches, but also preserve the viability of space travel in the future.
Space debris is an urgent problem that requires innovative solutions like the one proposed by EX-Fusion. As laser technology evolves and is refined, we may find new ways to address this challenge and protect our space environment. Frequently Asked Questions (FAQ) about EX-Fusion's laser technology for deflecting space debris: 1. What is EX-Fusion and what revolutionary approach are you proposing? EX-Fusion is a Japanese startup that is proposing a revolutionary approach to deflecting space debris using laser beams launched from Earth instead of lasers mounted on orbiting satellites. Frequently asked questions (FAQ): 1. What is the thermosensitive hydrogel developed by UPC researchers? The thermosensitive hydrogel developed by UPC researchers is known as 'solar absorbing hydrogel' (SAH) and has multiple applications, including the desalination of seawater with solar radiation and the creation of biomedical adhesives for semi-invasive therapies and medical diagnosis.