Breakthrough Starshot
Breakthrough Starshot is a research and engineering project by Breakthrough Initiatives to develop a proof-of-concept fleet of light sail spacecraft, named StarChip,[1] capable of making the journey to the Alpha Centauri star system, 4.37 light-years away, at speeds between 15% and 20% of the speed of light,[2][3][4][5] taking between 30 and 20 years to get there, respectively, and about 4 years to notify Earth of a successful arrival. The journey may include a flyby of Proxima Centauri b, an Earth-sized exoplanet that is in the habitable zone of its host star in the Alpha Centauri system.[6] The conceptual principles to enable this interstellar travel project were described in "A Roadmap to Interstellar Flight", by Philip Lubin of UC Santa Barbara.[7][8]
The project was announced on 12 April 2016 in an event held in New York City by physicist and venture capitalist Yuri Milner and cosmologist Stephen Hawking who is serving as board member of the initiatives. Other board members include Facebook CEO Mark Zuckerberg. The project has an initial funding of US$100 million to start research. Milner places the final mission cost at $5–10 billion, and estimates the first craft could launch around 2036.[3] Pete Worden is tasked to run the Breakthrough Initiatives,[9] of which this is the third.[10]
Objectives
Breakthrough Starshot aims to demonstrate proof of concept for ultra-fast light-driven nano-spacecraft, and lay the foundations for a first launch to Alpha Centauri within the next generation. Secondary goals are Solar System exploration and detection of Earth-crossing asteroids.[11] The German physicist Claudius Gros has proposed, that the technology of the Breakthrough Starshot initiative may be utilized in a second step to establish a biosphere of unicellular microbes on otherwise only transiently habitable exoplanets. [12] [13]
Concept
The Starshot concept envisions launching a "mothership" carrying about a thousand tiny spacecraft (on the scale of centimeters) to a high-altitude orbit and then deploying them. Ground-based lasers would then focus a light beam on the crafts' solar sail to accelerate them one by one to the target speed within 10 minutes, with an average acceleration on the order of 100 km/s2, and an illumination energy on the order of 1 TJ delivered to each sail, estimated to have a surface area of 4 m × 4 m.[14][15]
If an Earth-size planet is orbiting within the Alpha Centauri system habitable zones, Breakthrough Starshot will try to aim its spacecraft within 1 astronomical unit (150 million kilometers or 93 million miles) of it. From this distance, a craft's cameras could potentially capture an image of high enough quality to resolve surface features.[16]
The fleet would have about 1000 spacecraft, and each one (dubbed a StarChip), would be a very small centimeter-sized vehicle weighing a few grams.[1] They would be propelled by a square-kilometre array of 10 kW ground-based lasers with a combined output of up to 100 GW.[17][18] Each spacecraft would transmit data back to Earth using a compact on-board laser communications system using its solar sail as an antenna and the propulsion array as the receiver.[17][18] A swarm of about 1000 units would compensate for the losses caused by interstellar dust collisions en route to the target.[17][19] In more recent (albeit preliminary) work, it's suggested that mitigating the collisions with dust, hydrogen and galactic cosmic rays may not be quite as severe an engineering problem as first thought.[20]
Technical challenges
Light propulsion requires enormous power: a laser with a gigawatt of power (approximately the output of a large nuclear plant) would provide only a few newtons of thrust.[18] The spaceship will compensate for the low thrust by having a mass of only a few grams. The camera, computer, communications laser, a plutonium power source, and the solar sail must be miniaturized to fit within a mass limit.[18][21] All components must be engineered to endure extreme acceleration, cold, vacuum, and protons.[19] The spacecraft will have to survive collisions with space dust; Starshot expects each square centimeter of frontal cross-section to collide at high speed with about a thousand particles of size at least 0.1 μm.[18][22] Focusing a set of lasers totaling one hundred gigawatts onto the solar sail will be difficult, due to atmospheric turbulence. According to The Economist, at least a dozen off-the-shelf technologies will need to improve by orders of magnitude.[18]
See also
References
- 1 2 Gilster, Paul (12 April 2016). "Breakthrough Starshot: Mission to Alpha Centauri". Centauri Dreams. Retrieved 14 April 2016.
- ↑ Staff (12 April 2016). "Breakthrough Starshot". Breakthrough Initiatives. Retrieved 12 April 2016.
- 1 2 Overbye, Dennis (12 April 2016). "Reaching for the Stars, Across 4.37 Light-Years; A Visionary Project Aims for Alpha Centauri, a Star 4.37 Light-Years Away". New York Times. Retrieved 12 April 2016.
- ↑ Stone, Maddie (April 12, 2016). "Stephen Hawking and a Russian Billionaire Want to Build an Interstellar Starship". Gizmodo. Retrieved 12 April 2016.
- ↑ Staff (12 April 2016). "Breakthrough Initiatives - Breakthrough Starshot". Breakthrough Initiatives. Retrieved 14 April 2016.
- ↑ Chang, Kenneth (24 August 2016). "One Star Over, a Planet That Might Be Another Earth". New York Times. Retrieved 24 August 2016.
- ↑ Lubin, Philip (April 2015). "A Roadmap to Interstellar Flight" (PDF). University of California, Santa Barbara. Retrieved 16 April 2016.
- ↑ Hall, Loura (May 7, 2015). "DEEP IN Directed Energy Propulsion for Interstellar Exploration". NASA News. Retrieved 2016-04-22.
NASA is pleased to hear that Professor Lubin has received external funding to continue the work started in his NIAC study.
- ↑ Billionaire Milner pledges $100 million to find intelligent life in space". Reuters. 20 July 2016.
- ↑ https://breakthroughinitiatives.org/News
- ↑ Scharf, Caleb A. "Can Starshot Work?". scientificamerican.com. Retrieved 25 August 2016.
- ↑ Claudius Gros: Developing Ecospheres on Transiently Habitable Planets: The Genesis Project, Astrophysics and Space Science, Vol. 361, pp 1-14 (2016).
- ↑ Jessica Boddy: Q&A: Should we seed life on alien worlds?, Science, 9. September 2016.
- ↑ Lightsail, Integrity under thrust.
- ↑ Lightsail | Stability on the beam.
- ↑ "Breakthrough Initiatives". breakthroughinitiatives.org. Retrieved 25 August 2016.
- 1 2 3 "Breakthrough Starshot: Concept". 12 April 2016. Retrieved 14 April 2016.
- 1 2 3 4 5 6 "A new plan to send spacecraft to the stars: replace rockets with lasers". The Economist. 12 April 2016. Retrieved 13 April 2016.
- 1 2 Emspak, Jesse (15 April 2016). "No Breakthrough Yet: Stephen Hawking's Interstellar 'Starshot' Faces Challenges". Space. Retrieved 15 April 2016.
- ↑ Timmer, John (24 August 2016). "Just how dangerous is it to travel at 20% the speed of light?". Science. Ars Technica. Retrieved 2016-08-28.
- ↑ "Potential Challenges for Starshot". Breakthrough Initiatives. Retrieved 14 April 2016.
- ↑ "Interstellar Dust". Breakthrough Initiatives. Retrieved 15 April 2016.
External links
- Breakthrough Initiatives' official website
- Video (00:35) - Launching a StarChip - concept on YouTube
- Video (02:06) - Going interstellar (NASA) on YouTube
- Video (12:16) - Will Starshot's Insterstellar Journey Succeed? (PBS Digital Studios) on YouTube