Unveiling the Secrets of the Universe: A Rock Star's Contribution to Space Exploration

Discover the captivating fusion of music and science as we journey into the world of Brian May, legendary guitarist of Queen and passionate advocate for space exploration. In this article, we explore how May's involvement in the OSIRIS-REx mission pushed the boundaries of artistic expression and scientific discovery, with his remarkable contribution of stereoscopic images of asteroid Bennu's surface. Get ready to be inspired by the intersection of rock stardom and deep space exploration.

Embarking on a Celestial journey

Discover the genesis of Brian May's interest in space exploration and the serendipitous meeting that set the stage for his collaboration with NASA.

Journey back to the origins of Brian May's cosmic passion for space exploration. He found a kindred spirit in Dante Lauretta, the leader of the OSIRIS-REx mission, and Tucson, Arizona became their meeting point. Their shared vision for the future of space exploration quickly propelled them into uncharted territory.

A Guitarist's Perspective of the Universe

Immerse yourself in the enchanting stereoscopic world created by Brian May and get a glimpse of how it unlocked new dimensions within the realm of asteroid study.

Peer through the lens of Brian May’s guitar to witness his unique perspective on the universe. By creating stereoscopic images of asteroid Bennu’s surface, May adds depth, unlocking a whole new dimension in the field of asteroid study. Cooler than the Moon and more artistic than simple photographs, these images transport us into the cosmic tapestry.

The captivating effect of these 3D images can only be compared to slipping on a pair of 3D glasses, allowing the audience to dive deeply into the stunning complexities of Bennu’s topography.

Through these images, May invites us to reconsider our perception of the universe, transcending conventional boundaries and inspiring a sense of curiosity about the cosmos.

Harvesting the Secrets of Bennu

Uncover the dramatic precision from sample collection to touchdown on Earth with insights into the meticulous planning and execution of the OSIRIS-REx mission.

Marvel at the intricate dance performed as the OSIRIS-REx spacecraft carefully scooped up precious samples from the surface of asteroid Bennu. With scientific stakeholders worldwide holding their breath, the mission successfully accomplished its goal with unparalleled precision.

The chosen destination was the Nightingale Crater on Bennu, whereas a tightrope walker maneuvered her way past enormous boulders threatened to sabotage the mission. Witness the awe-inspiring orchestration display, executed flawlessly by the expert team and led by Dante Lauretta.

While designed to collect samples from the middle of the crater, some landed in the OSIRIS-REx sample chamber, while others found their unexpected home in the spacecraft itself, adding an intriguing twist to the outcome.

Unveiling Bennu’s Secrets

Explore the depths of the reliability of the returned sample, promising to capture invaluable pieces of the puzzle explaining the origins of the cosmos and our planet.

An air of excitement envelops us as the sample-delicate OSIRIS-REx spacecraft embarks on its journey back to Earth. Upon arrival, scientists eagerly anticipate the moment the sample box is opened.

Unlocking the Origins of the Universe

Contained within this box lies the potential to unravel the mysterious origins of the universe. From understanding the genesis of our planet to shedding light on the beginnings of life itself, these samples hold untold secrets.

A Glimpse into Extraterrestrial Time Capsules

These minuscule rocky treasures are like time capsules floating freely in the unexplored expanses of our galaxy. Cataloging the data preserved within these cosmic artifacts will shape our understanding of the cosmic ballet that is the universe.


Through the remarkable collaboration between Grammy-winning guitarist Brian May and the outstanding team of NASA scientists, the OSIRIS-REx sample return mission opens up a world of possibilities and tantalizing secrets waiting to be unveiled. May's passion for space exploration and his unique contributions in the form of stereoscopic images of asteroid Bennu’s surface have added depth and a new dimension to the field of asteroid study.

As we eagerly await the analysis of the retrieved samples, we stand on the precipice of a breathtaking journey through time and space. The OSIRIS-REx mission paves the way for future space exploration, bridging the gap between art, music, and scientific discovery. This collaborative effort reminds us that with perseverance, ingenuity, and a touch of stardust, the secrets of the universe can be revealed.


What inspired Brian May's interest in space exploration?

Brian May's interest in space exploration was rooted in not just a casual fascination, but a genuine passion for the universe. It was fueled by his meeting with Dante Lauretta, the leader of the OSIRIS-REx mission, where they bonded over their shared interests and visions of the future of space exploration.

How did Brian May contribute to the OSIRIS-REx mission?

Brian May's contribution to the OSIRIS-REx mission went beyond his musical talents. He utilized his expertise in stereoscopic imaging to create captivating images of asteroid Bennu's surface, providing a unique perspective and unlocking new dimensions in the study of asteroids.

What are the potential revelations from the samples collected from Bennu?

The samples collected from Bennu have the potential to unlock a treasure trove of information regarding the origins of the universe, our planet, and life itself. These cosmic artifacts serve as time capsules, preserving valuable data that can shape our understanding of the cosmos.

What is the significance of the OSIRIS-REx mission?

The OSIRIS-REx mission holds great significance as it not only advances scientific knowledge but also bridges the gap between art and science. It exemplifies the power of collaboration and reminds us of the boundless wonders that await us as we push the boundaries of exploration.

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