Chiefs News 6/23: Patrick Mahomes ‘trending toward’ being fully cleared  Arrowhead Pride

Trending for IU football: Wave of national predictions suggest UCLA linebacker will flip  The Daily Hoosier

Verizon Communications Inc. (VZ) Is a Trending Stock: Facts to Know Before Betting on It  Yahoo Finance

Forecast: Storm chances trending lower tonight, quiet for Monday  KOMU 8

4 Dynasty Players Trending Up & Down (2026 Fantasy Football)  FantasyPros

1. Meta debuts new, cheaper smart glasses under its own brand  TechCrunch
2. Meta announces new smart glasses starting at $299, as Zuckerberg keeps pushing wearables  CNBC
3. Meta debuts AI-powered Meta Glasses, starting at $299  Yahoo Finance
4. We’re Partnering With EssilorLuxottica to Launch Meta Glasses  meta.com
5. Meta Debuts Glasses Under Its Own Brand at Lower $299 Price  Bloomberg

1. Prime Day deals are officially live: Shop the best tech sales from Apple, Sony, Bose, Anker and others for up to 54% off right now  Yahoo Tech
2. The 40+ Best Prime Day Tech Deals: Laptops, Headphones, TVs, and More  The New York Times
3. Prime Day is here: We found 55+ deals to shop from Apple, Lego, Sony, and more  Mashable
4. 78 Actually Good Prime Day Deals  Business Insider
5. Amazon Prime Day Apple Deals That Are Actually Good  WIRED

1. Don't Let The Star Wars Branding Put You Off Galactic Racer  Engadget
2. Star Wars: Galactic Racer Fuses Episode 1: Racer and Burnout Into a Compelling Roguelite Racing Game  IGN
3. Star Wars: Galactic Racer's Roguelike Story Mode Is Surprisingly Good | New Gameplay Today  Game Informer
4. How Star Wars: Galactic Racer Turns Podracing into a Challenging Roguelite  XBOX Wire
5. We’ve played Star Wars: Galactic Racer, and we can’t believe how good it is  Top Gear

1. Valve Confirms Steam Machine Will Cost Over $1,000. Here's How to Buy One  PCMag
2. How much would the Steam Machine cost to build?  The Verge
3. Valve Explains Why You Have To Pay $1,050 To $1,430 For A Steam Machine  Forbes
4. Steam Machine Review: Is Valve’s $1,049 Console/PC Hybrid Worth It?  IGN
5. The Steam Machine Is An Iconoclastic Computer Born In Unforgiving Times  Aftermath

1. Prime Day 2026 LIVE: all the top TV, soundbar and projector deals handpicked by our home cinema experts  What Hi-Fi?
2. I found the 8 best TV deals of Amazon Prime Day to upgrade your movie night  CNN
3. Want to go big for Prime Day? 100-inch Hisense TVs are $2,000 off  USA Today
4. At $2,000 off, this TV could be the best deal of Amazon Prime Day — but should you buy it?  Yahoo Tech
5. I test TVs for a living, and these are the best Prime Day TV deals I've found so far  Business Insider

Flight tests are a big part of how NASA turns breakthrough ideas into reality. From flying humans faster than the speed of sound to proving designs that helped shape the space shuttle, flight testing transforms bold concepts into safer, more efficient technologies that benefit the public.

“Flight tests are a way to safely and effectively prove new technology, which helps certification authorities certify equipment,” said Wayne Ringelberg, chief pilot at NASA’s Armstrong Flight Research Center in Edwards, California. “It helps industry iterate and make systems better, and it promotes research in areas where new ideas can be developed.”

For nearly 80 years, teams at NASA Armstrong have used flight testing in the Southern California desert to push the limits of aerodynamics and advance aviation. Thanks to that work, NASA-developed innovations are aboard every U.S. commercial aircraft and inside every control tower today.

“The space side of NASA uses flight test, too. Every mission, like Artemis II, is never routine,” Ringelberg said. “Everything we’re doing when flying a test mission is something new or different.”

Every NASA test flight — whether it’s studying new software, hardware, or the revolutionary technology of an experimental X-plane — relies on engineers, researchers, pilots, maintenance crew, control room operators, and many others working together.

“Experienced operators and engineers evaluate how things work in flight,” Ringelberg said. “Most new technologies are designed to work in a lab or can be tested in a wind tunnel or other facility, but you never really know how they’ll perform until you fly them.”

Preflight tests often include computer analysis, simulation, wind tunnel testing, and ground tests focused on an aircraft’s ability to withstand the forces of flight and the environments through which it may fly. After hardware or software is deemed safe to fly, researchers turn the mission over to the flight test team.

To support testing, NASA Armstrong maintains an aircraft fleet modified to create space for new hardware or instruments, as well as the ability to integrate new software. These aircraft are flying laboratories, and pilots are trained to accomplish experimental missions.

For example, flight testing recently helped NASA gather critical data on laminar flow, or the smooth flow of air, over a wing. The work could lower fuel costs for future airliners. Computer modeling, wind tunnel tests, and other methods helped advance the research, but to find out even more about how the wing concept could reduce drag for future airliners, NASA used a scale model in actual flight.

NASA researchers strapped the Crossflow Attenuated Natural Laminar Flow (CATNLF) model wing to the belly of one of NASA Armstrong’s F-15s. The arrangement allowed them to collect all the information they would need without doing the extensive, costly modifications required to install a full-scale wing on an aircraft.

After a flight series is complete, engineers and researchers analyze the data. Did the instrument work as designed? Did the experimental aircraft perform safely at a high altitude? Did the software operate as planned? Each test raises its own set of questions to evaluate.

NASA continues working with academia, the Department of War, and industry partners to advance U.S. aviation through flight test and bring new benefits to the flying public.

The Moon appears half-illuminated in this photo captured by the Artemis II crew on flight day 6. The terminator – the difference between light and darkness – provides a stark contrast and even greater perspective of the Moon’s rocky, uneven, and otherworldly surface features. The near side, which is what we can see from Earth, appears in the dark gray regions at the top of this image.

Revisit imagery from the Artemis II mission.

Image credit: NASA

THIS PAGE WAS UPDATED ON JUNE 23, 2026

This Aeronautics Research Mission Directorate (ARMD) solicitations page compiles the opportunities to collaborate with NASA’s aeronautical innovators and/or contribute to their research to enable new and improved air transportation systems.

Most opportunities to participate in research are officially announced through the Web-based NASA Solicitation and Proposal Integrated Review and Evaluation System, better known as NSPIRES. You are encouraged to visit the NSPIRES web site, create an account, and sign up for automated email announcements.

Other types of collaborative opportunities, such as those involving Requests for Information or academic research contests, also are included on this page.

This ARMD Solicitations page has four major sections:

• Quick list of open solicitations with key dates listed.
• Current open solicitations with more details and helpful links.
• Closed solicitations in case it is helpful to see other examples of the kind of research opportunities NASA Aeronautics makes available.
• Summary of NASA’s Research Opportunities in Aeronautics (ROA) NASA Research Announcement (NRA) selection process.

Upcoming Key Dates

August 3, 2026
Deadline for proposals on Open Fan Flight Demonstrations NRA

Currently Open Solicitations

NASA Research Announcement – Development Plan for Open Fan Flight Demonstration – OPEN

As part of NASA’s Advanced Air Vehicles Program, the Subsonic Vehicle Technologies and Tools project endeavors to advance knowledge, technologies, and concepts that enable accelerated introduction of radical aircraft and engine technologies across a range of vehicle classes.

This is achieved through partnerships with industry to ensure that these technologies are applicable to planned products to increase the chances of inclusion in future aircraft systems.

This research announcement solicits proposals for providing an open fan flight demonstration plan with optional accompanying risk reduction activities. The flight demonstration plan will inform the project of the scope of a possible future flight demonstration and provide insight into the roadmap, risk reduction areas, and areas of potential investment.

See the full research announcement text on SAM.gov.

Proposals Due: August 3, 2026, by 5:00 PM EDT

Aeronautics Innovation Challenges – OPEN

NASA’s nationwide team of aeronautical innovators are committed to giving students of all ages opportunities to solve some of the biggest technical challenges facing the aviation community today. Through NASA-sponsored challenges and competitions, students representing multiple disciplines will put their skills to work by designing and building solutions to real-world problems.

Currently Closed Solicitations

NASA ARMD Aeronautics Flight Accelerator – CLOSED

NASA’s Aeronautics Research Mission Directorate is seeking information from U.S. industry, academia, and government organizations regarding potential partnerships for research, development, and flight testing under the Aeronautics Flight Accelerator initiative. NASA is requesting input on technologies, concepts, and flight test campaigns suitable for cost shared maturation leading to flight within the next three years. Areas of interest span subsonic (including vertical lift), supersonic, and hypersonic flight technologies.

THIS IS NOT A REQUEST FOR PROPOSAL. NO PROPOSALS SHOULD BE SUBMITTED.

RFI Release Date: April 7, 2026
Responses Were Due: May 7, 2026, 1:00PM Pacific Daylight Time (PDT)

For more detailed information, see the RFI listing on SAM.gov.

FY26 NASA Aerospace Skilled Technical Workforce Hubs (NAS_Hub) – CLOSED

This opportunity seeks proposals to establish state or regionally focused Skilled Technical Workforce Hubs (NAS_Hubs) that will serve as strategic centers for developing and sustaining a skilled technical workforce aligned with aerospace industry and NASA mission needs. The NAS_Hub Notice of Funding Opportunity has been released and may be found in NASA’s Solicitation and Proposal Integrated Review and Evaluation System (NSPIRES) on the NAS_Hub landing page.

Key Dates

• Pre-Proposal Webinar: February 18, 2026, 2:00 to 3:00 p.m. ET
• Office Hours Session: March 3, 2026, 2:00 to 3:00 p.m. ET
• Proposal Deadline: March 23, 2026, at 11:59 p.m. ET
• Anticipated Award Notification: June 2026

About the Opportunity

The rapid expansion of the space economy and renewed national priorities in human space exploration have created an urgent demand for a robust skilled technical workforce—individuals in critical science- and engineering-based roles who do not require a bachelor’s degree. To address nationwide shortages and ensure U.S. competitiveness in aerospace and defense, NASA’s Office of STEM Engagement is launching the NASA Aerospace Skilled Technical Workforce Hubs (NAS_Hub) initiative.

Through this notice NASA seeks lead organizations to establish hubs that:

• Collaborate with aerospace employers to align education and training with industry-defined workforce needs.
• Partner with community colleges and high school Career and Technical Education programs to deliver hands-on, industry-aligned learning experiences.
• Coordinate with state or regional workforce development system.
• Build clear and sustainable employment pathways into high-demand aerospace technical careers.

NAS_Hubs will serve as focal points for aligning education, workforce, industry, and government partners to accelerate workforce readiness over a three-year period of performance.

Eligibility

Eligible applicants include:

• State, county, city, township, special district, and tribal governments
• Public and private institutions of higher education
• Nonprofit organizations
• For-profit organizations and small businesses

Proposals must include partnerships with, at a minimum:

• Three aerospace industry collaborators supporting NASA’s work
• Community college career and technical education program
• High school career and technical education program
• State or regional workforce development system
• NASA Center or other NASA facility

Award Information

• Maximum Annual Award: $500,000
• Maximum Total Award: $1,500,000 over three years
• Cost Sharing: Not required

How to Apply

Proposals must be submitted electronically via NSPIRES. Registration in NSPIRES and an active SAM.gov registration are required.

Pre-Proposal Webinar and Technical Assistance

NASA will host an interactive pre-proposal webinar for the NAS_Hub opportunity on Feb. 18, 2026, from 2:00 to 3:00 p.m. ET. This session will provide an in-depth overview of this funding opportunity, including program goals, eligibility requirements, proposal preparation guidance, and submission tips. Proposers will also have the opportunity to receive technical assistance and clarification from NASA staff. Prior to attending a webinar, proposers are strongly encouraged to review the full NAS_Hub notice and to check the NAS_Hub landing page in NSPIRES regularly for updates and additional guidance.

Please note that registration is required for the webinar. Connection details will be provided upon completion of registration. Webinar dates, times, registration links, and connection information will be posted on the NAS_Hub landing page in NSPIRES, which also will feature recordings and presentation materials from the webinar after the event for those unable to attend.

Office Hours Session

March 3, 2026, 2:00 to 3:00 p.m. ET

Last opportunity for questions prior to the proposal deadline. Join the office hours session here.

Contact Information

For technical assistance with NSPIRES
NSPIRES Help Desk available Monday–Friday, 8:00 AM–6:00 PM ET
(202) 479-9376
nspires-help@nasaprs.com 

Program Contact

Maria Arredondo
Next Gen STEM Program Manager
NASA Office of STEM Engagement
Mary W. Jackson NASA Headquarters

Email: NAS_Hub@nasaprs.com

Advanced Capabilities for Emergency Response Operations RFI – CLOSED

View the full ACERO RFI announcement here.

NASA’s Advanced Capabilities for Emergency Response Operations (ACERO) project used this request for information to identify technologies that addressed current challenges facing the wildland firefighting community. NASA was seeking information on data collection, airborne connectivity and communications solutions, unmanned aircraft systems traffic management, aircraft operations and autonomy, and more. This would support development of a partnership strategy for future collaborative demonstrations.

Interested parties were requested to respond to this notice with an information package submitted via https://nari.arc.nasa.gov/acero-rfi no later than 4 pm ET, October 15, 2023. Submissions were accepted only from U.S. companies.

Advanced Air Mobility Mission RFI – CLOSED

View the full AAM RFI announcement here.

This request for information is being used to gather market research for NASA to make informed decisions regarding potential partnership strategies and future research to enable Advanced Air Mobility (AAM). NASA is seeking information from public, private, and academic organizations to determine technical needs and community interests that may lead to future solicitations regarding AAM research and development.

This particular RFI is just one avenue of multiple planned opportunities for formal feedback on or participation in NASA’s AAM Mission-related efforts to develop these requirements and help enable AAM. 

The respond by date for this RFI closed on Feb. 1, 2025, at 6 p.m. EST.

ROA-2025 NRA Amendment 1 – CLOSED

Advanced Air Vehicles Program Fellowship Opportunities

(View the full ROA-2025 NRA Amendment 1 text here.)

This announcement solicits proposals from accredited U.S. institutions for research training grants to begin the academic year. This Notice of Funding Opportunity is designed to support independently conceived research projects by highly qualified graduate students in disciplines needed to help advance NASA’s mission, thus affording these students the opportunity to directly contribute to advancements in STEM-related areas of study. These opportunities are focused on innovation and the generation of measurable research results that contribute to NASA’s current and future science and technology goals.

Research proposals are sought to address the key challenges summarized in the Elements section at the end of the Amendment 1 document, and which reference NASA’s Hypersonic Technology project.

Reflecting the Fiscal Year 2026 budget changes, the Transformational Tools & Technologies project opportunities originally described in this announcement were cancelled. Proposals citing this project will not be evaluated.

Notices of Intent are not required.

A budget breakdown for each proposal is required, detailing the allocation of the award funds by year. The budget document may adhere to any format or template provided by the applicant’s institution. Two pre-proposal teleconferences for potential proposers will be held and meeting links will be posted on NSPIRES.

Proposals were due by 5 p.m. EDT on June 11, 2025.

NASA Research Opportunities in Aeronautics

Competition for NRA awards is open to both academia and industry.

The current open solicitations for ARMD Research Opportunities are ROA-2024 and ROA-2025.

Here is some general information to know about the NRA process.

• NRA solicitations are released by NASA Headquarters through the Web-based NASA Solicitation and Proposal Integrated Review and Evaluation System (NSPIRES).
• All NRA technical work is defined and managed by project teams within these four programs: Advanced Air Vehicles Program, Airspace Operations and Safety Program, Integrated Aviation Systems Program, and Transformative Aeronautics Concepts Program.
• NRA awards originate from NASA’s Langley Research Center in Virginia, Ames Research Center in California, Glenn Research Center in Cleveland, and Armstrong Flight Research Center in California.
• Competition for NRA awards is full and open.
• Participation is open to all categories of organizations, including educational institutions, industry, and nonprofits.
• Any updates or amendments to an NRA is posted on the appropriate NSPIRES web pages as noted in the Amendments detailed below.
• ARMD sends notifications of NRA updates through the NSPIRES email system. In order to receive these email notifications, you must be a Registered User of NSPIRES. However, note that NASA is not responsible for inadvertently failing to provide notification of a future NRA. Parties are responsible for regularly checking the NSPIRES website for updated NRAs.

Jason Peterson’s responsibilities for NASA’s Artemis II mission went beyond his usual role as the range operations manager at NASA’s Stennis Space Center near Bay St. Louis, Mississippi.

For Peterson, working at NASA is a surreal full-circle moment.

“I grew up in DeLisle, Mississippi, right down the road from NASA,” said Peterson. “You would hear NASA testing, the windows would shake, and you knew they were out there. Not in a million years would I have ever dreamed I would work with NASA.”

His career journey took a few turns before reaching the space agency.

“I got out of school, welded, went to college and then to the Air Force. The path to NASA really started to develop from there,” said Peterson.

Peterson spent 24 years in the U.S. Air Force and Air National Guard, working in airfield and air-to-ground range operations, followed by a few years working as an aircraft dispatcher at Airbus Final Assembly Line.

Peterson credits his military experience with preparing him for the 12-to-16-hour workdays that helped bring the Artemis II test flight around the Moon and into view for audiences around the world.

He supported the team responsible for delivering video and communication feeds for the launch of NASA’s SLS (Space Launch System) rocket with the Artemis II crew aboard the Orion spacecraft, and then splashdown in the Pacific Ocean.

During the nearly 10-day mission, NASA astronauts Reid Wiseman, Victor Glover, Christina Koch, and CSA (Canadian Space Agency) astronaut Jeremy Hansen completed a record-setting lunar flyby, taking them 252,756 miles at their farthest distance from Earth.

Aboard the USS John P. Murtha, Peterson was the first on the ship to spot the capsule returning with the crew.

Peterson operated one of six cameras providing live coverage by using a high‑resolution, multi‑sensor system with thermal capabilities. Using the ship’s heading and Orion’s predicted trajectory, he located the capsule within minutes and began tracking it.

Orion entered Earth’s atmosphere at about 400,000 feet above the planet’s surface, traveling nearly 35 times the speed of sound and about 1,956 statute miles from its splashdown point off the coast of California. Peterson tracked Orion from the release of the small parachutes that first slow and steady the capsule, through the main parachutes opening, and all the way to splashdown.

“You are fully locked in, keeping it centered, in focus, and steady,” said Peterson.

Peterson’s focus on the mission began weeks earlier at NASA’s Kennedy Space Center in Florida.

In the days leading to launch, Peterson worked with the team running full systems checks, staging communications gear, and preparing drones and fixed‑wing camera assets. He helped configure and operate the systems that ensured live video flowed from the launch pad, the crowds, and surrounding air and ground platforms.

On April 1, the launch day of Artemis II, the team unloaded and set up high‑resolution sensors, connection terminals, routers, monitors, fiber lines, and drone equipment. They flew drones to capture crowd scenes and aerial views before liftoff.

As the SLS rocket launched, Peterson’s full attention was on positioning the drone and maintaining the shot.

“There is not much time to step back and take in the moment, as you are concentrating on precision,” said Peterson.

As the mission got underway, Peterson and the team packed up, returned to the facility, and downloaded the day’s footage.

The Artemis II crew were more than halfway to the Moon as Peterson arrived in San Diego on April 4. In the days leading to splashdown, the team loaded and installed high‑fidelity cameras and supporting equipment, all to help the world witness a historic milestone when the Artemis II crew returned to Earth on April 10.

Next up will be Artemis III. NASA will launch four astronauts from NASA Kennedy aboard the Orion spacecraft on the SLS rocket. Building on the successful Artemis II crewed test flight in April, Artemis III will pave the way for future surface missions, with experts like Peterson helping every step of the way.

Astronomers using NASA’s Hubble Space Telescope have found something they never expected — ultraviolet light from a galaxy that existed just 1.4 billion years after the big bang. That galaxy contains tightly clustered young stars that produce ionizing light capable of transforming the opaque, neutral gas within and immediately around the galaxy, clearing our view. This suggests that similar galaxies in the early universe were responsible for clearing the neutral fog of hydrogen gas that once filled the cosmos.

A paper describing this discovery was published June 23 in the Astrophysical Journal.

The galaxy, cataloged MXDFz4.4, existed at the end of the Era of Reionization, a transformative period in our universe. During roughly the first billion years of the cosmos, the gas between stars and galaxies was opaque to energetic ultraviolet light. As time wore on, gas everywhere became transparent or ionized. The changeover was not like an on/off switch, but likely took hundreds of millions of years. Researchers are still collecting evidence to fully understand how this happened, which is why MXDFz4.4 sets a critical precedent.

“Observing a galaxy like this was thought to be impossible,” said lead author Ilias Goovaerts, a postdoctoral fellow at the Space Telescope Science Institute (STScI) in Baltimore. “Researchers expected the ‘fog’ or neutral hydrogen that filled the early universe would be too thick and obscure our view of its ionizing light. Hubble not only spotted that light, but it also helped reveal incredible details about the galaxy’s characteristics.”

Great light ‘escape’

Young, massive stars emit ultraviolet light capable of ionizing hydrogen atoms. As this light traveled for over 12 billion years to reach Hubble, space expanded, and the light stretched or redshifted into visible light. Hubble’s wavelength coverage, combined with the sensitivity and resolution of its space-based vantage point, makes it the only telescope capable of capturing this ultraviolet light from the early universe.

“Astronomers have found many galaxies that existed at this point in the history of the universe, but we haven’t detected ionizing photons from any of them, making MXDFz4.4 one of a kind,” said Marc Rafelski, a co-author and Hubble deputy mission head at STScI.

Hubble’s long exposures, pulled from several existing surveys, revealed that the galaxy’s young, massive stars are the source of the ultraviolet light, which cleared the surrounding space. These stars formed in bursts within the last few million years of MXDFz4.4’s existence and are crammed together.

Amplifying this crowding effect, MXDFz4.4 is about 100 times smaller by area than our Milky Way galaxy, but is forming stars 10 times faster.

“A lot of young, hot, massive stars in a small space do a better job of blasting through opaque gas,” Goovaerts said. The researchers estimate that 50 to 100% of the young stars’ energetic ionizing light is escaping the surrounding gas.

Massive stars’ lifetimes also play a role, since they live for only a few million years. Many explode as supernovae, releasing gigantic amounts of energy and blowing colossal holes that allow even more light to escape.

Partnering with other observatories

Hubble could not do this alone. These conclusions are supported by survey data taken by NASA’s James Webb Space Telescope in near-infrared light and the MUSE eXtremely Deep Field or MXDF, the galaxy’s namesake, captured by the European Southern Observatory’s Very Large Telescope (VLT) in visible light.

The team used Webb’s data to determine the galaxy’s mass, analyze its older stars, and measure the galaxy’s star formation history. The galaxy’s older stars are less massive and cooler, and therefore not responsible for changing the gas around them.

Comparing Hubble and Webb data also showed that recent star formation happened in bursts. “Without Webb to clarify what we saw in Hubble’s images, we couldn’t make these conclusions,” Rafelski said.

Data from the VLT pinpointed when MXDFz4.4 existed: 1.4 billion years after the big bang. Before this discovery, researchers had only identified a galaxy emitting ionized light from a time when the universe was 1.6 billion years old. Only a few additional examples have been identified, and those existed when the universe was about 2 billion years old. MXDFz4.4 brings researchers closer to drawing firm conclusions about how the Era of Reionization unfolded.

Expanding what we know

Studying the Era of Reionization is a decades-old endeavor. Researchers use statistics about star populations in nearby galaxies, which we can observe in great detail, to make well-informed assumptions about what might be happening in galaxies in the early universe, in part because their star populations are too distant to resolve in any detail.

In 2023, researchers using Webb showed that galaxies’ stars emitted enough light to heat and ionize the gas around them 900 million years after the big bang. This was a breakthrough, but astronomers need galaxies like MXDFz4.4 to fully explain how the process happened, since it shows how the high-energy light from young stars managed to escape the gas and dust within the galaxy itself. 

It’s possible other galaxies like MXDFz4.4 are waiting to be discovered.

“Hubble’s observations of MXDFz4.4 let us test our hypotheses much closer to the Era of Reionization than ever before,” Rafelski said. “Finding more galaxies, especially at slightly later cosmic times where larger samples are within reach, would let us refine these measurements and figure out what cleared our view as that era was ending.”

The Hubble Space Telescope has been operating for over three decades and continues to make ground-breaking discoveries that shape our fundamental understanding of the universe. Hubble is a project of international cooperation between NASA and ESA (European Space Agency). NASA’s Goddard Space Flight Center in Greenbelt, Maryland, manages the telescope and mission operations. Lockheed Martin Space, based in Denver, also supports mission operations at Goddard. The Space Telescope Science Institute in Baltimore, which is operated by the Association of Universities for Research in Astronomy, conducts Hubble science operations for NASA.

This is the second data breach to affect LastPass customers in recent years, after one of the password manager's tech partners was recently breached.

HaloBraid aims to help salons speed up braiding with its first device, slated to launch later this year, that acts as a braiding assistant for professional stylists.

The smart glasses are available in several countries starting today in a variety of color and lens combinations.

Four days left to save up to $190 on your pass to TechCrunch Founder Summit 2026 — the ultimate founder bootcamp — before Early Bird rates end on June 26 at 11:59 p.m. PT. Register today.

Ribbie lets you follow along live with MLB games with a delightful, arcade-inspired interface.