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- To detect ancient whispers from the cosmic Dark Ages<\/strong> \u2013 the years after the Big Bang \u2013 we need a radio telescope in a quiet place.<\/li>\n
- On Earth, our electronics<\/strong> \u2013 from wifi to cell phones and more \u2013 create noise that makes it very hard to hear the ancient whispers.<\/li>\n
- The newly proposed CosmoCube mission<\/strong> would visit the far side of the moon. In this quiet location it could detect the radio signals from the early universe.<\/li>\n<\/ul>\n
The Royal Astronomical Society published this original article on July 9, 2025. Edits by EarthSky.<\/p>\n
Probing the cosmic Dark Ages from the far side of the moon<\/h3>\n
Astronomers want to unlock the secrets of the early universe by sending a miniature spacecraft to listen for an ancient whisper<\/em> from the far side of the moon. The proposed mission will study the very early universe, right after the Big Bang. During these Dark Ages, the universe was still quite dark and empty and the first stars and galaxies had not yet appeared. But to probe the cosmic Dark Ages, silence<\/em> is essential. And Earth is a noisy place for radio signals, with interference from our atmosphere and all our electronics.<\/p>\n
Eloy de Lera Acedo of the University of Cambridge presented the proposal on July 9, 2025, at the Royal Astronomical Society\u2019s National Astronomy Meeting 2025 in Durham, U.K. De Lera Acedo said: <\/p>\n
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It\u2019s like trying to hear that whisper while a loud concert is playing next door.<\/p>\n
This makes it really hard to pick up those faint signals from billions of years ago. To detect a special radio signal that comes from hydrogen \u2013 the first, most basic and most abundant chemical element \u2013 in the early universe, we need it to be quiet.<\/p>\n
That\u2019s why we\u2019re proposing to send a small satellite to orbit the moon and detect a signal that could hold clues about how everything began and how structures like galaxies eventually formed.<\/p>\n<\/blockquote>\n
CosmoCube would venture to the moon\u2019s far side<\/h3>\n
The U.K.-led CosmoCube mission would observe from the far side of the moon. The moon acts like a giant shield, blocking out all the radio noise from Earth. <\/p>\n
This would create a clear, quiet spot to listen for an ancient whisper. And the findings would let us learn more about the universe\u2019s Dark Ages and Cosmic Dawn, periods that are currently largely unexplored. De Lera Acedo said:<\/p>\n
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By doing this, CosmoCube aims to help us better understand how our universe transformed from a simple, dark state to the complex, light-filled cosmos we see today, with all its stars and galaxies.<\/p>\n
Crucially, it will also help scientists investigate the mysterious dark matter and its role in shaping these cosmic structures.<\/p>\n<\/blockquote>\n
![\"A](\"https:\/\/earthsky.org\/upl\/2025\/07\/CosmoCube-tests-RAS-Dr-Will-Grainger-RAL-Space-CC-BY-4-e1752000331330.jpg\")
A model of the CosmoCube satellite undergoes thermal vacuum tests at the RAL Space facilities. Image via RAS\/ Will Grainger, RAL Space (CC BY 4.0).<\/figcaption><\/figure>\n How it will work<\/h3>\n
CosmoCube will feature a precision-calibrated, low-power radio radiometer operating from a low-cost satellite platform in lunar orbit. It would operate at low frequencies (10\u2013100 MHz), engineered to detect extremely faint signals amidst a sea of noise.<\/p>\n
The mission could help shed light on the Hubble tension. The Hubble tension refers to the discrepancy in the measured expansion rate of the universe, specifically between the value based on observations of the early universe and value related to observations of the local universe.<\/p>\n
It may also provide insights into dark matter-baryon interactions and the physics of the early universe. (Dark matter-baryon interactions are potential non-gravitational interactions between dark matter particles and ordinary matter.) <\/p>\n
This so-called Dark Ages<\/em> period is one of the last unexplored frontiers in observational cosmology. The pre-stellar epoch offers a pristine view into the formation of structure, the properties of dark matter, and early cosmic evolution.<\/p>\n
Using radio waves to hear the cosmic Dark Ages<\/h3>\n
Fellow CosmoCube researcher David Bacon, from the University of Portsmouth, said: <\/p>\n
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It\u2019s incredible how far these radio waves have traveled, now arriving with news of the universe\u2019s history.<\/p>\n
The next step is to go to the quieter side of the moon to hear that news.<\/p>\n<\/blockquote>\n
CosmoCube is supported under the U.K. Space Agency\u2019s Science Bilateral Programme. A U.K.-led international consortium with researchers based at the University of Cambridge, University of Portsmouth and STFC RAL Space is developing the program.<\/p>\n
Instrument development is well under way, with functioning lab prototypes and environmental testing taking place and key collaboration with industry partners, such as SSTL Ltd, developing the space platform and mission concept.<\/p>\n
The team behind the project is planning for a four to five year roadmap to launch, with the goal of reaching lunar orbit before the end of the decade.<\/p>\n
Bottom line: Researchers are designing a mission called CosmoCube to travel to the far side of the moon, an area of radio silence, in order to listen to whispers from the cosmic Dark Ages.<\/p>\n
Source: CosmoCube: Probing the Cosmic Dark Ages with a Miniature Radiometer in Lunar Orbit<\/p>\n
Via Royal Astronomical Society<\/p>\n
<\/div>\n
\n - On Earth, our electronics<\/strong> \u2013 from wifi to cell phones and more \u2013 create noise that makes it very hard to hear the ancient whispers.<\/li>\n