Mars' atmosphere moves differently from Earth's due to gravity waves. These waves affect air circulation at high altitudes.

A study suggests Mars takes its red hue from a type of mineral that forms in cool water, which could reveal insights about whether Mars was ever able to support life.

A new study by researchers including those at the University of Tokyo revealed that atmospheric gravity waves play a crucial ...

More than 3 billion years ago, Mars intermittently had liquid water on its surface. After the planet lost much of its ...

How's the weather up there? On Mars, weather forecasts haven't always been right at our fingertips. Now, recent research from ...

Nuclear pulse propulsion is a technology that would work. It was being developed in the 1960s but it was stopped because of ...

Water once existed in abundance of at the surface of Mars. How much of that water has been stored in the planet's crust is still unclear, according to a new analysis.

A new study by researchers including those at the University of Tokyo revealed that atmospheric gravity waves play a crucial ...

Fluid-rock interactions on ancient Mars may have produced abundant magnetic minerals that preserved unusually intense records ...

Her research provides new insights for understanding how the atmosphere of Mars has evolved over time. Unlike Earth, Mars lacks a global magnetic field and interacts with the solar wind directly.

Our study reveals that ferrihydrite formation on Mars required the presence of both oxygen — whether from the atmosphere or other sources — and water capable of reacting with iron.” ...