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China: Researchers move to assess viability of laser-delivered, wireless power transmission from lunar orbiters to supply spacecraft during long night on the moon's surface "LWPT uses laser beams to transmit power wirelessly from orbiting satellites to surface receivers, converting light into electricity. The researchers recommend the development of key technologies, followed by on-orbit testing." "As well as providing power during lunar nighttimes, LWPT could also support spacecraft operations in permanently shadowed craters, thought to hold water-ice, which can be used to make propellant or water or oxygen for astronauts." https://lnkd.in/g2_cTQsP #china #spacetechnology #chinatech #moonmission #spacetech

#China to #beam #power from #orbital #lasers down to the #Moon surface #China started exploring the possibilities of using #orbital #lasers to #beam #power down to the #Moon surface. < https://lnkd.in/g2_cTQsP > This isn't new at all as an experimental concept. it has been explored already by European Space Agency - ESA, and by NASA - National Aeronautics and Space Administration in the early 1990's < https://lnkd.in/dzJQJkAs > and again in the early 2000's. < https://lnkd.in/dSD_8n5B > Then in 2023, #NASA published its research on "Power Beaming From Lunar Orbit to Small Lunar Science Assets. " < https://lnkd.in/dCAeUxZP > And in early 2024, #NASA and JAXA: Japan Aerospace Exploration Agency reported their successful joint-experiment to bounce laser beams between the #Moon surface and lunar orbit. < https://lnkd.in/daG_HBq8 > #NASA’s #LRO (Lunar Reconnaissance Orbiter) twice transmitted a laser pulse to a cookie-sized retroreflector aboard #JAXA’s #SLIM lander on the #Moon and received a return signal. As LRO passed 44 miles above SLIM (Smart Lander for Investigating Moon) during two successive orbits on May 24, 2024, it pinged the lander with its laser altimeter instrument as it had done eight times before. On these two attempts, the signal bounced back to LRO’s detector, even though SLIM wasn't in an ideal position since it had tipped over. It will be interesting to see how #China tackles this challenge, one of the much needed solutions to power the #Moon surface, especially during the 2-weeks long lunar night.

Lockheed Martin envisions a thriving lunar base by 2044, promoting sustainability and international collaboration. 🔋 Diverse power sources, including solar and nuclear, ensure reliable energy 🏠 Inflatable habitats offer comfortable living and working spaces 💧 Utilization of lunar ice for water, radiation shielding, and fuel production 🚀 Moon serves as a hub for Earth-Mars missions with refueling stations 🤖 AI and robotics aid in construction, maintenance, and resource extraction #MoonBase2044 #SpaceInnovation #LunarLiving 🛰️ Supports a water-based economy leveraging lunar ice 🧑🚀 Reduces dependency on Earth with self-sustaining systems 🌍 Promotes international collaboration in space exploration 📡 Facilitates low-cost, reusable spacecraft for lunar and Martian missions https://lnkd.in/g72Jzxha

A recent article on the Lunar Mass Driver, a Gerard K. O'Neill invention. Leveraging the Moon's 1/6 gravity and lack of atmosphere, this innovation would enable electromagnetic acceleration of lunar regolith into space. Formed into small bricks, the material would be collected in a tug orbiting L2 behind the Moon and then transported to a processing plant at L4 or L5. This method would be more economical than using chemical rockets to launch material off of the lunar surface for in-space construction of large structures like solar power satellites and habitats.

The dream of sending humans to Mars is moving closer to reality, thanks to breakthroughs in propulsion technology. One of the most exciting developments is Howe Industries' Pulsed Plasma Rocket (PPR), which could cut travel time to the Red Planet from nearly two years to just two months. This revolutionary propulsion system harnesses nuclear fission to create powerful, efficient energy, making long-duration space travel feasible while protecting astronauts from harmful Galactic Cosmic Rays. With NASA’s PPR project advancing to Phase II of development, and Elon Musk’s SpaceX working alongside NASA to reach Mars, the future of interplanetary exploration looks brighter than ever. As we push the boundaries of space technology, these advancements not only bring us closer to Mars but also highlight the potential for new energy solutions to transform other sectors. The countdown to Mars is just beginning! 🚀 The Journey to Mars: Advancements in Propulsion Systems Bringing Us Closer to Realityhttps://lnkd.in/eHivQ8EG #SpaceExploration #MarsMission #Innovation #RenewableEnergy #PropulsionTechnology #FutureOfSpace

Video Recap: China Chang'e-6 Science Mission to Return Far Side Moon Samples FriendsofNASA.org: The ascender of China's Chang'e-6 probe successfully rendezvoused and docked with the orbiter-returner combination in lunar orbit at 14:48 Beijing time on Thursday, June 6, 2024, the China National Space Administration (CNSA) announced. Shortly after the docking procedure, the container carrying the lunar samples collected on the far side of the Moon was safely transferred from the ascender to the returner at 15:24. This is the second time China has achieved a probe rendezvous and docking in lunar orbit following the success of the Chang'e-5 mission back in December 2020. Launched from south China's Hainan Province on May 3, 2024, the Chang'e-6 mission set out to retrieve the first-ever lunar samples from the far side of the Moon, making it a groundbreaking accomplishment in the history of human lunar exploration. The lander-ascender combination, separated from the orbiter-returner combination on May 30, touched down at the designated landing area in the South Pole-Aitken (SPA) Basin on June 2. The SPA basin (43°±2° south latitude, 154°±4° west longitude) is a large impact crater on the far side of the Moon. At roughly 2,500 km (1,600 mi) in diameter and between 6.2 and 8.2 km (3.9–5.1 mi) deep, it is the largest, oldest, and deepest basin recognized on the Moon. The Chang'e-6 lander finished its intelligent and rapid sampling work, and the samples were stowed in a container inside the ascender of the probe as planned. After that, the combination separated, with the lander staying on the lunar surface, whereas the ascender lifted off from lunar surface Tuesday morning, June 4, carrying samples collected from the Moon's far side. A 3,000-newton engine, after working for about six minutes, pushed the ascender to the preset lunar orbit with a perigee of about 15 kilometers and an apogee of about 180 kilometers. After one to three course corrections over the next five days, the Chang'e-6 ascender-returner combination will reach a position around 5,000 kilometers above the Earth, where the returner will separate from the orbiter and start the phase of re-entering the atmosphere and returning to Earth. It will touchdown at a planned landing area at Siziwang Banner in the Inner Mongolia Autonomous Region. This will mark the end of the Chang'e-6's 53-day journey of flying to the moon and back. Video Credit: CNSA Duration: 6 minutes Release Date: June 6, 2024 Philippe Baptiste CNES European Space Agency - ESA Josef Aschbacher Dan Goldin NASA Goddard Space Flight Center NASA Jet Propulsion Laboratory Dongfang Hour Jean Deville Jimmy Balimis Olga Dragunova John Logsdon Jonathan Lunine #NASA #CNSA #ESA #Space #Astronomy #Science #China #中国 #Moon #Change6 #嫦娥六号 #LunarSampleReturn #FarSide #SouthPole #SpaceTechnology #SpaceExploration #SolarSystem #InternationalCooperation #France #CNES #Italy #ASI #Sweden #History #STEM #Education #HD #Video

NASA's Proposed Plasma Rocket Would Get Us to Mars in 2 Months: Last week, NASA announced it is working with a technology development company on a new propulsion system that could transport humans to Mars in only two months -- down from the current nine month journey required to reach the Red Planet. Gizmodo reports: NASA's Innovative Advanced Concepts (NIAC) program recently selected six promising projects for additional funding and development, allowing them to graduate to the second stage of development. The new "science fiction-like concepts," as described by John Nelson, NIAC program executive at NASA, include a lunar railway system and fluid-based telescopes, as well as a pulsed plasma rocket. The potentially groundbreaking propulsion system is being developed by Arizona-based Howe Industries. To reach high velocities within a shorter period of time, the pulsed plasma rocket would use nuclear fission -- the release of energy from atoms splitting apart -- to generate packets of plasma for thrust. It would essentially produce a controlled jet of plasma to help propel the rocket through space. Using the new propulsion system, and in terms of thrust, the rocket could potentially generate up to 22,481 pounds of force (100,000 Newtons) with a specific impulse (Isp) of 5,000 seconds, for remarkably high fuel efficiency. [...] The pulsed plasma rocket would also be capable of carrying much heavier spacecraft, which can be then equipped with shielding against galactic cosmic rays for the crew on board. Phase 2 of NIAC is focused on assessing the neutronics of the system (how the motion of the spacecraft interacts with the plasma), designing the spacecraft, power system, and necessary subsystems, analyzing the magnetic nozzle capabilities, and determining trajectories and benefits of the pulsed plasma rocket, according to NASA. Read more of this story at Slashdot.

NASA's Proposed Plasma Rocket Would Get Us to Mars in 2 Months: Last week, NASA announced it is working with a technology development company on a new propulsion system that could transport humans to Mars in only two months -- down from the current nine month journey required to reach the Red Planet. Gizmodo reports: NASA's Innovative Advanced Concepts (NIAC) program recently selected six promising projects for additional funding and development, allowing them to graduate to the second stage of development. The new "science fiction-like concepts," as described by John Nelson, NIAC program executive at NASA, include a lunar railway system and fluid-based telescopes, as well as a pulsed plasma rocket. The potentially groundbreaking propulsion system is being developed by Arizona-based Howe Industries. To reach high velocities within a shorter period of time, the pulsed plasma rocket would use nuclear fission -- the release of energy from atoms splitting apart -- to generate packets of plasma for thrust. It would essentially produce a controlled jet of plasma to help propel the rocket through space. Using the new propulsion system, and in terms of thrust, the rocket could potentially generate up to 22,481 pounds of force (100,000 Newtons) with a specific impulse (Isp) of 5,000 seconds, for remarkably high fuel efficiency. [...] The pulsed plasma rocket would also be capable of carrying much heavier spacecraft, which can be then equipped with shielding against galactic cosmic rays for the crew on board. Phase 2 of NIAC is focused on assessing the neutronics of the system (how the motion of the spacecraft interacts with the plasma), designing the spacecraft, power system, and necessary subsystems, analyzing the magnetic nozzle capabilities, and determining trajectories and benefits of the pulsed plasma rocket, according to NASA. Read more of this story at Slashdot.

The dream of sending humans to Mars is moving closer to reality, thanks to breakthroughs in propulsion technology. One of the most exciting developments is Howe Industries' Pulsed Plasma Rocket (PPR), which could cut travel time to the Red Planet from nearly two years to just two months. This revolutionary propulsion system harnesses nuclear fission to create powerful, efficient energy, making long-duration space travel feasible while protecting astronauts from harmful Galactic Cosmic Rays. With NASA’s PPR project advancing to Phase II of development, and Elon Musk’s SpaceX working alongside NASA to reach Mars, the future of interplanetary exploration looks brighter than ever. As we push the boundaries of space technology, these advancements not only bring us closer to Mars but also highlight the potential for new energy solutions to transform other sectors. The countdown to Mars is just beginning! 🚀 The Journey to Mars: Advancements in Propulsion Systems Bringing Us Closer to Realityhttps://lnkd.in/eHivQ8EG #SpaceExploration #MarsMission #Innovation #RenewableEnergy #PropulsionTechnology #FutureOfSpace