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Category: space

Chang’e mission samples reveal how exogenous organic matter evolves on the moon

Elements essential to life, such as carbon, nitrogen, oxygen, phosphorus, and sulfur, were “delivered” to Earth and the moon during the early stages of the solar system via asteroids and comets impacting their surfaces. These exogenous materials may have provided the chemical building blocks necessary for the origin and early evolution of life on Earth. But extensive geological activity and biological processes on Earth have largely erased the direct records of these early inputs on our planet.

In contrast, the moon, with its relatively limited geological activity, serves as a natural “time capsule,” making it easier to unravel the history and evolution of extraterrestrial organic matter.

A recent study has, for the first time, systematically identified multiple nitrogen-bearing organic species on the surfaces of lunar soil grains returned by China’s Chang’e-5 and Chang’e-6 missions. The research further reveals an evolutionary pathway defined by exogenous delivery, impact modification, and continuous solar wind processing.

Webb Telescope spots “impossible” atmosphere on ancient super-Earth

A scorching “lava world” once thought barren may actually be wrapped in a thick, mysterious atmosphere. Astronomers have uncovered surprising evidence of a thick atmosphere surrounding TOI-561 b, a scorching, fast-orbiting rocky planet once thought too extreme to hold onto any gas. Using NASA’s James Webb Space Telescope, researchers found the planet is far cooler than expected for a bare rock, hinting at a heat-distributing atmosphere above a churning magma ocean. This strange world—where a year lasts just over 10 hours and one side is locked in eternal daylight—may even be rich in volatile materials, behaving like a “wet lava ball.”

A team of astronomers led by Carnegie has uncovered the clearest evidence yet that a rocky planet outside our Solar System has an atmosphere. Using NASA’s James Webb Space Telescope (JWST), the researchers identified signs of gas surrounding an unusual target: an ancient, extremely hot super Earth that likely has a surface covered by molten rock. The findings were published in The Astrophysical Journal Letters.

The planet, known as TOI-561 b, has about twice the mass of Earth but is dramatically different in almost every other way. It orbits extremely close to its star, at a distance just one fortieth that of Mercury from the Sun. Even though its star is slightly smaller and cooler than our Sun, the planet’s tight orbit means it completes a full year in only 10.56 hours. One side constantly faces the star, leaving it locked in permanent daylight.

Street green space can help cool cities, but it will not be enough on its own

A new IIASA-led study finds that expanding street green space can reduce urban heat stress in cities worldwide, but even ambitious greening efforts are unlikely to offset a significant share of the additional heat expected under climate change. Instead, the research shows that street greenery should be part of a broader portfolio of urban adaptation measures.

Cities are on the front line of climate change, with rising temperatures and heat stress posing growing risks to health, productivity, and livability. Street green space, such as trees and vegetation along streets, is often promoted as a practical nature-based solution because it can provide shade, cooling, and other positive benefits, for example, improving the mental health of citizens. Yet, evidence on how much cooling street greenery can deliver, to which extent the amount of vegetation can be increased, and how much cooling can be expected in future climates has remained limited, particularly when taking a global view across very different urban forms and climate zones.

In the new study published in Environmental Research Letters, a team of researchers from IIASA and VITO Belgium combined high-resolution street greenery data with 100-meter urban microclimate model outputs for 133 cities worldwide, providing a neighborhood-scale assessment with global coverage. Rather than relying on satellite-based surface temperature alone, the team assessed how street green space relates to air temperature and wet-bulb globe temperature —a measure that captures heat stress more appropriately than temperature alone because it accounts for humidity, wind, and radiation.

Parabolic flight test shows lasers can propel graphene aerogels in microgravity

Lasers could one day steer solar sails and adjust a satellite’s position in outer space, thanks to graphene. An experiment on a gravity rollercoaster ride showed how this innovative material has the potential to revolutionize propulsion beyond Earth.

An international research team boarded ESA’s 86th parabolic flight campaign in May 2025 with ultralight graphene aerogels, then hit them with light during zero gravity phases to observe their reaction under space-like conditions.

The effect of the laser during the microgravity phases was startling: The graphene samples shot forward instantly.

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