Solid State Quantum Magnetometers—Seeking out water worlds from the quantum world

Solid State Quantum Magnetometers—Seeking out water worlds from the quantum world

4 min read

Solid State Quantum Magnetometers—Seeking out water worlds from the quantum world

On the left side, a white moon covered in ice with reddish ridges. One-eighth of the moon has been cut out to show spherical layers below the moon’s surface, from outside to center: Ice Shell-Ocean-Interior Core. On the right side, the same moon with straight magnetic field lines from bottom left to top right. Close to the moon, the field lines are bent.
Left: Jupiter’s moon Europa and its presumed interior. A thick ice shell covers a planetary saltwater ocean, presumed to hold twice as much water as Earth’s oceans. Right: Simulation of the ocean bending the magnetic field lines emitted by Jupiter that are close to Europa
Image credit: C. Cochrane/ NASA/JPL-Caltech

“Follow the water!”  The solar system is full of water in different states, from the Sun’s water vapor to the ice of Pluto and beyond. Water is not only linked to the possibility to sustain life, it is also interesting for its own geological properties and potential uses. For example, ice on the Moon and Mars could support human exploration. Comets that hit Earth may have deposited water on our planet. The icy comets and rings of Saturn reveal how solar systems change over time.

Liquid water, however, has a special role in enabling life. Scientists have discovered indications that liquid water might exist on a number of moons orbiting our solar system’s gas and ice giants. The mantra of the astrobiology community is to “Follow the Water” to find life, so subsurface oceans on Jupiter’s Europa, Saturn’s Enceladus, and other moons are compelling targets for future missions.

However, looking beneath the miles-thick ice crusts of these planetary bodies with conventional remote-sensing instruments, like cameras and radar, is challenging. Until we can send landers or rovers that drill or melt through the ice, we can use other techniques to track down these enormous, but elusive, water bodies. One method—Magnetometry—stands out since magnetic fields penetrate solid material and can therefore provide information about the interior of planet-sized bodies.

Briny water conducts electricity; therefore, a saltwater ocean can function as a planet-sized electric circuit. The strong rotating magnetic field of the parent planet of an ocean world can induce an electric current in this “circuit,” which in turn disturbs and modifies the magnetic field near the ocean world under investigation. These magnetic field disturbances can be observed from a spacecraft and may indicate the presence of liquid water. For example, a distortion of Jupiter’s magnetic field in the vicinity of Europa was measured by the magnetometer on NASA’s Galileo mission, providing further evidence for the initial suspicions of a water ocean under that moon’s icy crust.

A bright green laser beam is hitting a tiny glassy cube. The bottom photo shows the same setup, but with a large circular filter added in front of the glassy cube. The laser beam is invisible behind the filter, the glassy cube emits a reddish glow.
The heart of optically pumped quantum magnetometers: a diamond crystal enriched with color centers. Unlike many other quantum systems, diamond and SiC solid state quantum color centers operate at room temperature and can be readily accessed electrically or optically. The bottom photo, filtering the laser light for the observer, shows the red-shifted emission response of the quantum system. This response is encoded with quantum spin information, and can be used to read environmental influences, such as temperature, pressure, electric and, most importantly for us, magnetic field properties.
Image credit A. Gottscholl/ NASA/JPL-Caltech

Solid-state quantum magnetometers are an upcoming instrument class promising to measure magnetic fields at competitive sensitivities, while offering lower size, weight, and power footprints. In addition, these instruments offer quantum benefits like self-calibration on spin-nuclear quantum interaction, which means that the magnetometer can compensate for drifts over time. This capability is especially important for decades-long missions to the outer ice-giants. Other solid-state quantum advantages include radiation resilience and an inherent ability to withstand very high/low temperatures.

Solid-state quantum magnetometers leverage quantum color centers located in semiconductors such as diamond and silicon carbide. Color centers are defects in the crystal lattice—for example, a missing atom or a different atom replacing a crystal atom. In everyday life, color centers give crystals their color, but they can also be probed on the quantum level using modulated light. Due to their quantum spin properties these color centers are sensitive to environmental magnetic fields. As these color centers are exposed to varying magnetic fields, the changing quantum spin properties can be read electrically and/or optically, providing insight into the magnetic field properties and enabling us to detect the presence of water.

Research teams at NASA’s Jet Propulsion Laboratory are developing two magnetometers to measure spin properties from space. The incredibly simple but elegant SiCMAG (Silicon Carbide Magnetometer, Lead Dr. Corey J. Cochrane) instrument reads spin properties electrically, while the OPuS-MAGNM (optically pumped solid state quantum magnetometer, Lead Dr. Hannes Kraus) promises access to higher sensitivities through the addition of optics. Optically pumped here means that the quantum system is pumped with green (diamond) or deep red (silicon carbide) laser light, and the system’s response is read with a light detector.

According to Dr. Kraus, “Novel quantum sensors not only enable new science, but also offer the chance to downscale former flagship-class instrumentation to a size and cost allowing flagship-class science on CubeSat-class platforms.”

NASA has been funding solid state quantum magnetometer sensor research through its PICASSO (Planetary Instrument Concepts for the Advancement of Solar System Observations) program since 2016. A variety of domestic partners from industry and academia support this research, including NASA’s Glenn Research Center in Cleveland, the University of Iowa, Q-Cat LLC and QuantCAD LLC, as well as international partners such as Japan’s National Institutes for Quantum Science and Technology (QST Japan) and ETH Zurich, a public research university in Zurich, Switzerland.

Two smiling team members stand on either side of an optical table with multiple instruments and a barrel-shaped open chamber.
PI Dr. Kraus (left) and postdoctoral researcher Dr. Andreas Gottscholl (right) in the JPL Quantum Magnetometer lab, with the optically detected magnetic resonance (ODMR) spectrometer apparatus—a larger-scale stepping stone towards a miniaturized integrated magnetometer instrument—built by Dr. Gottscholl in the background. The optically pumped quantum sensor crystals (not visible here, as the sensor itself is only millimeters in size) are located in the concentric barrel-shaped four-layer µ-metal chamber, which is capable of shielding the Earth’s and other magnetic field disturbances by a factor of 100,000.
Image Credit H. Kraus/ NASA/JPL-Caltech

Acknowledgment: The research was carried out at the Jet Propulsion Laboratory, California Institute of Technology, under a contract with the National Aeronautics and Space Administration (80NM0018D0004).

PROJECT LEAD

Dr. Hannes Kraus, Dr. Corey Cochrane, Jet Propulsion Laboratory/California Institute of Technology

SPONSORING ORGANIZATION

Science Mission Directorate PICASSO, JPL R&D funding

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NASA Wallops Visitor Center Extended Hours June 12

NASA Wallops Visitor Center Extended Hours June 12

This June 2021 aerial photograph shows the coastal launch range at NASA’s Wallops Flight Facility on Virginia’s Eastern Shore.
Credit: Courtesy Patrick J. Hendrickson; used with permission

The NASA Wallops Visitor Center will be open for extended hours from 4-6 p.m., Wednesday, June 12, to conduct outreach focused around NASA’s environmental work at Wallops. In addition, the Visitor Center exhibit gallery and auditorium will be open for the public to visit, and personnel will be onsite to share information on current and upcoming missions.

The Visitor Center is open to the public and admission is always free.

Wallops’ Environmental Team will be on-hand to discuss and answer questions about NASA’s ongoing work related to Per- and Polyfluoroalkyl Substances (PFAS) at the facility. Experts will also be available to share information on the new Wallops Island Causeway Bridge project.

Wallops conducts extended hours outreach events routinely at the Visitor Center, which is located on Virginia Route 175 about five miles from U.S. Route 13 and five miles from Chincoteague Island, Virginia.

By Jeremy Eggers
NASA’s Wallops Flight Facility, Wallops Island, Va.

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Jun 04, 2024

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NASA Updates Coverage for Crew Flight Test Launch, Docking to Station

NASA Updates Coverage for Crew Flight Test Launch, Docking to Station

A United Launch Alliance Atlas V rocket with Boeing’s Starliner spacecraft is pictured from Space Launch Complex 41 at Cape Canaveral Space Force Station in Florida. NASA astronauts Butch Wilmore and Suni Williams will launch aboard Starliner for the agency’s Boeing Crew Flight Test.
Credits: NASA/Joel Kowsky

NASA will provide live coverage of launch activities for the agency’s Boeing Crew Flight Test, which will carry NASA astronauts Butch Wilmore and Suni Williams to and from the International Space Station.

Launch of the ULA (United Launch Alliance) Atlas V rocket and Boeing Starliner spacecraft is targeted for 10:52 a.m. EDT Wednesday, June 5, from Space Launch Complex-41 at Cape Canaveral Space Force Station in Florida. Starliner will dock to the forward-facing port of the station’s Harmony module at approximately 12:15 p.m., Thursday, June 6.

Wilmore and Williams will remain at the space station for about a week to test the Starliner spacecraft and its subsystems before NASA works to complete final certification of the transportation system for rotational missions to the orbiting laboratory as part of the agency’s Commercial Crew Program.

The deadline for media accreditation for in-person coverage of this launch has passed. The agency’s media credentialing policy is available online. For questions about media accreditation, please email: ksc-media-accreditat@mail.nasa.gov.

NASA’s mission coverage is as follows (all times Eastern and subject to change based on real-time operations):

Wednesday, June 5

6:45 a.m. – Launch coverage begins on NASA+, NASA Television, the NASA app, YouTube, and the agency’s website.

10:52 a.m. – Launch

Launch coverage on NASA+ will end shortly after Starliner orbital insertion. NASA Television will provide continuous coverage leading up to docking and through hatch opening and welcome remarks.

12:30 p.m. – Postlaunch news conference with the following participants:

  • NASA Administrator Bill Nelson
  • Ken Bowersox, associate administrator, NASA’s Space Operations Mission Directorate
  • Joel Montalbano, deputy associate administrator, NASA’s Space Operations Mission Directorate
  • Steve Stich, manager, NASA’s Commercial Crew Program
  • Mark Nappi, vice president and program manager, Commercial Crew Program, Boeing
  • Tory Bruno, president and CEO, ULA

Coverage of the postlaunch news conference will air live on NASA+, NASA Television, the NASA app, YouTube, and the agency’s website.

Media may ask questions in person and via phone. Limited auditorium space will be available for in-person participation. For the dial-in number and passcode, media should contact the Kennedy newsroom no later than one hour before the start of the event at ksc-newsroom@mail.nasa.gov.

NASA+ will resume coverage and NASA Television’s public channel will break from in-orbit coverage to carry the postlaunch news conference. Mission operational coverage will continue on NASA Television’s media channel and the agency’s website. Once the postlaunch news conference is complete, NASA+ coverage will end, and mission coverage will continue on both NASA channels.

Thursday, June 6

9:30 a.m. – Arrival coverage resumes on NASA+, the NASA app, and YouTube, and continues on NASA Television and the agency’s website.

12:15 p.m. – Targeted docking to the forward-facing port of the station’s Harmony module

2 p.m. – Hatch opening

2:20 p.m. – Welcome remarks

3:30 p.m. – Post-docking news conference at NASA’s Johnson Space Center with the following participants:

  • NASA Associate Administrator Jim Free
  • Steve Stich, manager, NASA’s Commercial Crew Program
  • Jeff Arend, manager for systems engineering and integration, NASA’s International Space Station Office
  • Mark Nappi, vice president and program manager, Commercial Crew Program, Boeing

Coverage of the post-docking news conference will air live on NASA+, NASA Television, the NASA app, YouTube, and the agency’s website.

All times are estimates and could be adjusted based on operations after launch. Follow the space station blog for the most up-to-date operations information.

Audio Only Coverage

Audio only of the news conferences and launch coverage will be carried on the NASA “V” circuits, which may be accessed by dialing 321-867-1220, -1240 or -7135. On launch day, “mission audio,” countdown activities without NASA Television launch commentary, will be carried on 321-867-7135.

Launch audio also will be available on Launch Information Service and Amateur Television System’s VHF radio frequency 146.940 MHz and KSC Amateur Radio Club’s UHF radio frequency 444.925 MHz, FM mode, heard within Brevard County on the Space Coast.

Live Video Coverage Prior to Launch

NASA is providing a live video feed of Space Launch Complex-41 on NASA Kennedy’s YouTube: https://youtube.com/kscnewsroom. Pending unlikely technical issues, the feed will be uninterrupted until the prelaunch broadcast begins on NASA Television, approximately four hours prior to launch.

NASA Website Launch Coverage

Launch day coverage of the mission will be available on the agency’s website. Coverage will include live streaming and blog updates beginning no earlier than 6:45 a.m., June 5, as the countdown milestones occur. On-demand streaming video and photos of the launch will be available shortly after liftoff.

For questions about countdown coverage, contact the Kennedy newsroom at 321-867-2468. Follow countdown coverage on the commercial crew or the Crew Flight Test blog.

Attend Launch Virtually

Members of the public can register to attend this launch virtually. NASA’s virtual guest program for this mission also includes curated launch resources, notifications about related opportunities or changes, and a stamp for the NASA virtual guest passport following launch.

Watch, Engage on Social Media

Let people know you’re following the mission on X, Facebook, and Instagram by using the hashtags #Starliner and #NASASocial. You can also stay connected by following and tagging these accounts:

X: @NASA, @NASAKennedy, @NASASocial, @Space_Station, @ISS_Research, @ISS National Lab, @BoeingSpace, @Commercial_Crew

Facebook: NASA, NASAKennedy, ISS, ISS National Lab

Instagram: @NASA, @NASAKennedy, @ISS, @ISSNationalLab

Coverage en Espanol

Did you know NASA has a Spanish section called NASA en Espanol? Check out NASA en Espanol on X, Instagram, Facebook, and YouTube for additional mission coverage.

Para obtener información sobre cobertura en español en el Centro Espacial Kennedy o si desea solicitar entrevistas en español, comuníquese con Antonia Jaramillo: 321-501-8425; antonia.jaramillobotero@nasa.gov o Messod Bendayan: 256-930-1371; messod.c.bendayan@nasa.gov

NASA’s Commercial Crew Program has delivered on its goal of safe, reliable, and cost-effective transportation to and from the International Space Station from the United States through a partnership with American private industry. This partnership is changing the arc of human spaceflight history by opening access to low-Earth orbit and the International Space Station to more people, science, and commercial opportunities. The space station remains the springboard to NASA’s next great leap in space exploration, including future missions to the Moon and, eventually, to Mars.

For NASA’s launch blog and more information about the mission, visit:

https://www.nasa.gov/commercialcrew

-end-

Josh Finch / Jimi Russell / Claire O’Shea
Headquarters, Washington
202-358-1100
joshua.a.finch@nasa.gov / james.j.russell@nasa.gov / claire.a.o’shea@nasa.gov

Steven Siceloff / Danielle Sempsrott / Stephanie Plucinsky
Kennedy Space Center, Florida
321-867-2468
steven.p.siceloff@nasa.gov / danielle.c.sempsrott@nasa.gov / stephanie.n.plucinsky@nasa.gov

Leah Cheshier
Johnson Space Center, Houston
281-483-5111
leah.d.cheshier@nasa.gov

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Tiernan P. Doyle

NASA Invites Media to Discuss Hubble Operations Update

NASA Invites Media to Discuss Hubble Operations Update

An STS-125 crew member aboard the Space Shuttle Atlantis captured this image of NASA’s Hubble Space Telescope on May 19, 2009.
Credit: NASA

NASA will hold a media teleconference at 4 p.m. EDT, Tuesday, June 4, to provide an update on operations for NASA’s Hubble Space Telescope. NASA anticipates Hubble will continue making discoveries, working with other observatories such as the agency’s James Webb Space Telescope, throughout this decade and into the next.

Audio of the teleconference will stream live on the agency’s website at:

https://www.nasa.gov/nasatv/

Participants in the teleconference include:

  • Mark Clampin, director, Astrophysics Division, Science Mission Directorate at NASA Headquarters in Washington
  • Patrick Crouse, project manager, Hubble Space Telescope, NASA’s Goddard Space Flight Center in Greenbelt, Maryland

To ask questions during the teleconference, media must RSVP no later than two hours before the event to Alise Fisher at: alise.m.fisher@nasa.gov. NASA’s media accreditation policy is available online.

Launched in 1990, Hubble has been observing the universe for more than three decades and recently celebrated its 34th anniversary.

To learn more about Hubble, including some of its greatest scientific discoveries, visit: 

https://www.nasa.gov/hubble

-end- 

Alise Fisher 
Headquarters, Washington 
202-358-2546
alise.m.fisher@nasa.gov  

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Abbey A. Donaldson

Winners Announced in Gateways to Blue Skies Aeronautics Competition

Winners Announced in Gateways to Blue Skies Aeronautics Competition

4 min read

Preparations for Next Moonwalk Simulations Underway (and Underwater)

Team “Rumble Ready” from California State Polytechnic University, Pomona, comprised of (from left to right) Professor Mark Gonda, Nicole Xie, Junaid Bodla, Jordan Ragsac, Krishi Gajjar, Gerald McAllister III, and Leara Dominguez, took home first place at the 2024 Gateways to Blue Skies Forum held May 30-31 at NASA Ames Research Center.
National Institute of Aerospace

The California State Polytechnic University, Pomona, team, with their project titled “Aero-Quake Emergency Response Network,” took first place at the third annual Gateways to Blue Skies Competition. Competing among eight finalist teams that presented their ideas for aviation-related systems for natural disasters, the California State Polytechnic University, Pomona team earned the top award at the 2024 Blue Skies Forum, hosted at NASA’s Ames Research Center May 30-31. The Forum was judged by subject matter experts from NASA and industry. 

In addition to the first-place recognition, team members were awarded an opportunity to intern at any of the four NASA Aeronautics Centers — Langley Research Center (Hampton, VA), Glenn Research Center (Cleveland, OH), Ames Research Center (Mountain View, CA), and Armstrong Flight Research Center (Edwards, CA) —across the country during the 2024-25 Academic Year.   

“We truly enjoyed the NASA Blue Skies competition,” said team lead Krishi Gajjar. “We are honored that our efforts have been awarded by the experienced and diverse judging panel. This would not have been possible without the guidance from our advisor, professor Mark Gonda, and our rigorous engineering program at Cal Poly Pomona. We are proud to have grown together as a team and are excited to continue advancing aviation in our future careers as aerospace engineers!” 

Second place went to Columbia University with their project, “AVATARS: Aerial Vehicles for Avalanche Terrain Assessment and Reporting Systems.”  

Other awards included:  

  • Future Game-Changer Award: Cerritos College | F.I.R.E (Fire Intervention Retardant Expeller) 
  • Most Innovative Award: North Carolina State University | Reconnaissance and Emergency Aircraft for Critical Hurricane Relief (REACHR) 

Sponsored by NASA’s Aeronautics Research Mission Directorate’s University Innovation Project, the Gateways to Blue Skies Competition is an initiative to engage college students in researching climate-friendly technologies and applications related to the future of aviation. Because of the increase in natural disasters compounded by climate change, the 2024 theme, “Advancing Aviation for Natural Disaster,” asked students to investigate and conceptualize, in terms of feasibility and viability, aviation-related systems that can be applied by 2035 to one phase of management of a chosen type of natural disaster to improve capabilities. 

Because many emergency response professionals believe there is no one proposed concept that will be applicable for all different natural disasters or can be applied to all phases of management, this competition welcomed a wide range of potential solutions. New technologies and applications gained from this crowdsourced competition may be developed further by NASA for use in coordinating and facilitating disaster management. 

At the Forum, finalist teams presented concepts of systems that addressed responses to natural disasters such as earthquakes, avalanches, volcanic eruptions, hurricanes, floods, and wildfires.   

“Whenever NASA engages with students, it’s such a rewarding experience,” said Steven Holz, NASA Aeronautics University Innovation Assistant Project Manager and Blue Skies judge and co-chair. “This competition encourages students to imagine, expand, and tackle the challenges and opportunities that await in the future of aeronautics. The students bring unique concepts and ideas to the table along with a wealth of knowledge and professionalism. It’s always exciting to have the chance to see firsthand what they come up with next.” 

Students also had the opportunity to network with NASA and industry experts, tour NASA’s Ames Research Center, and gain insight into potential careers and applications that will further the Agency’s mission toward a climate-friendly aviation future. 

“Because natural disasters are so far-reaching and impactful to so many, we had a lot of interest in this year’s competition,” added Marcus Johnson, project manager in the Aeronautics Directorate at NASA Ames Research Center and 2024 Blue Skies co-chair. “Each of the eight finalist teams that presented at this year’s Forum were passionate about their concepts and each offered compelling ideas.  This competition is about so much more than just “awards,” it’s about connecting, networking and identifying the future leaders in aeronautics.” 

The 2024 Gateways to Blue Skies Competition is sponsored by NASA’s Aeronautics Research Mission Directorate and administered by the National Institute of Aerospace.  

**** 

View the livestream of the competition presentations: https://vimeo.com/showcase/blueskies

View the competition finalists: https://blueskies.nianet.org/finalists/ 

To learn more about the 2024 Gateways to Blue Skies: Advancing Aviation for Natural Disasters Competition, visit: https://blueskies.nianet.org/competition/ 

For more information about NASA Aeronautics, visit: https://www.nasa.gov/topics/aeronautics/index.html 

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Jun 03, 2024

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Julia L. Bradshaw