Close Menu
  • Home
  • UNSUBSCRIBE
  • News
  • Lifestyle
  • Tech
  • Entertainment
  • Sports
  • Travel
Facebook X (Twitter) WhatsApp
Trending
  • NASA celebrates America’s 250th birthday with red, white and blue snaps of the cosmos — Space photo of the week
  • Superintelligent AI in space could explain the Fermi Paradox
  • Diminutive species ‘the Hobbit’ did not hunt or control fire, deepening the mystery of its ancestry, dwarf elephant bones reveal
  • Elite families ruled nomadic Scythian society 2,500 years ago, DNA analysis reveals
  • ‘Machine-gun sun’ could bring auroras to more than a dozen states this Independence Day weekend
  • NASA launches bold mission to rescue Swift space telescope before it falls to Earth
  • ‘It’s more than a hope, it’s a guarantee’: The Vera C. Rubin Observatory’s 10-year movie of the universe is about to ‘blow our minds,’ chief scientist Tony Tyson says
  • 11-year-old boy in Canada dies from rabies after waking up with a bat on his face
Facebook X (Twitter) WhatsApp
Baynard Media
  • Home
  • UNSUBSCRIBE
  • News
  • Lifestyle
  • Tech
  • Entertainment
  • Sports
  • Travel
Baynard Media
Home»Lifestyle»World’s biggest X-ray laser discovers never-before-seen type of ice that’s solid at room temperature
Lifestyle

World’s biggest X-ray laser discovers never-before-seen type of ice that’s solid at room temperature

EditorBy EditorOctober 22, 2025No Comments3 Mins Read
Share Facebook Twitter Pinterest LinkedIn Tumblr Reddit Telegram Email
Share
Facebook Twitter LinkedIn Pinterest Email

Scientists have squeezed water between two diamonds to create an entirely new form of ice that’s solid at room temperature.

The ice, named ice XXI, forms when water is subjected to extreme pressure to become metastable — a precarious state that is made physically unstable by the slightest disturbance.

The researchers created ice XXI by supercompressing water between two diamonds and detected it with the European X-Ray Free-Electron Laser (XFEL), the world’s largest X-ray laser. The team found that the supercompressed water structurally changes from a high-density state to a very-high-density state.


You may like

The finding could have implications for space exploration, opening up new ways that ice could potentially form on alien worlds, according to the study published Oct. 10 in the journal Nature Materials.

“Our findings suggest that a greater number of high temperature metastable ice phases and their associated transition pathways may exist, potentially offering new insights into the composition of icy moons,” study co-author Rachel Husband, a postdoctoral researcher at the German Electron Synchrotron research center in Germany, said in a statement.

Ice XXI, the number 21 in Roman numerals, is the 21st known ice phase — others include the four-sided crystals of ice XIX and star-hot superionic ice. Water can exist in a plethora of solid phase forms thanks to its molecular structure, with its two-pronged hydrogen atoms freezing into varying crystalline and amorphous structures.

Scientists have found many water-ice transition pathways by applying pressure to water at low temperatures, when molecules are slower, but they expect less ice diversity at higher temperatures, when the molecules have more kinetic energy.

Get the world’s most fascinating discoveries delivered straight to your inbox.

In the new study, the researchers explored ice transition pathways at room temperature, which is around 72 degrees Fahrenheit (22 degrees Celsius). The team used a diamond anvil cell, a device that takes advantage of the extreme hardness of diamonds to subject materials to immense pressure. In this case, water was subjected to pressures of around 20,000 times that of normal air on Earth, forcing H2O molecules together until they were so compact they formed a solid structure. The XFEL scanned the sample every one millionth of a second (1 microsecond), tracking how its structure changed.

“With the unique X-ray pulses of the European XFEL, we have uncovered multiple crystallization pathways in H2O which was rapidly compressed and decompressed over 1,000 times using a dynamic diamond anvil cell,” study co-author Geun Woo Lee, a researcher at the Korea Research Institute of Standards and Science (KRISS), said in the statement.

Source link

Share. Facebook Twitter Pinterest LinkedIn Tumblr Email
Previous ArticleCalifornia Republicans launch voter ID ballot initiative for 2026
Next Article North Carolina lawmakers pass new map designed to give GOP an extra House seat
Editor
  • Website

Related Posts

Lifestyle

NASA celebrates America’s 250th birthday with red, white and blue snaps of the cosmos — Space photo of the week

July 5, 2026
Lifestyle

Superintelligent AI in space could explain the Fermi Paradox

July 5, 2026
Lifestyle

Diminutive species ‘the Hobbit’ did not hunt or control fire, deepening the mystery of its ancestry, dwarf elephant bones reveal

July 3, 2026
Add A Comment

Comments are closed.

Categories
  • Entertainment
  • Lifestyle
  • News
  • Sports
  • Tech
  • Travel
Recent Posts
  • NASA celebrates America’s 250th birthday with red, white and blue snaps of the cosmos — Space photo of the week
  • Superintelligent AI in space could explain the Fermi Paradox
  • Diminutive species ‘the Hobbit’ did not hunt or control fire, deepening the mystery of its ancestry, dwarf elephant bones reveal
  • Elite families ruled nomadic Scythian society 2,500 years ago, DNA analysis reveals
  • ‘Machine-gun sun’ could bring auroras to more than a dozen states this Independence Day weekend
calendar
July 2026
M T W T F S S
 12345
6789101112
13141516171819
20212223242526
2728293031  
« Jun    
Recent Posts
  • NASA celebrates America’s 250th birthday with red, white and blue snaps of the cosmos — Space photo of the week
  • Superintelligent AI in space could explain the Fermi Paradox
  • Diminutive species ‘the Hobbit’ did not hunt or control fire, deepening the mystery of its ancestry, dwarf elephant bones reveal
About

Welcome to Baynard Media, your trusted source for a diverse range of news and insights. We are committed to delivering timely, reliable, and thought-provoking content that keeps you informed
and inspired

Categories
  • Entertainment
  • Lifestyle
  • News
  • Sports
  • Tech
  • Travel
Facebook X (Twitter) Pinterest WhatsApp
  • Contact Us
  • About Us
  • Privacy Policy
  • Disclaimer
  • UNSUBSCRIBE
© 2026 copyrights reserved

Type above and press Enter to search. Press Esc to cancel.