News Release

Scientists to view Venus' atmosphere during transit, search for water vapor on distant planet

Peer-Reviewed Publication

U.S. National Science Foundation



View of the planet Venus. Credit: NASA

Full size image available through contact

Arlington, Va.--Timothy Brown, a scientist at the National Center for Atmospheric Research (NCAR) in Boulder, Colo., will not sit idly by as Venus traverses the Sun for the first time in 122 years at an angle visible from Earth. On June 8, peering through a specialized solar telescope in the Canary Islands, Brown will study the chemical composition and winds of Venus' upper atmosphere, a region poorly observed until now.

"We hope the science team has excellent viewing conditions next Tuesday," said Jarvis Moyers, director of the National Science Foundation (NSF) division of atmospheric sciences, which funds NCAR, "as this is a very rare opportunity to obtain quantitative information about the upper levels of the atmosphere of Venus."

An extrasolar planet scientist at NCAR's High Altitude Observatory (HAO), Brown has been applying a technique known as spectroscopy to piece together atmospheric data on a planet orbiting star HD209248, located 150 light years from Earth. He found sodium in the planet's atmosphere in 2001 and is now searching for water and carbon monoxide. HAO director Michael Knoelker, who specializes in precision solar spectroscopy, is a co-investigator on the Venus project.

During next week's transit, Brown will apply the same technique to examine regions of the solar spectrum that are strongly absorbed as they pass through Venus' atmosphere between 65 and 85 kilometers (40 and 53 miles) altitude--a region above the planet's thick cloud layer.

Each wavelength absorbed will indicate the presence of a specific gas and its height in the atmosphere. Brown will also be able to construct wind patterns based on the gases' Doppler shifts, that is, their motion toward or away from Earth.

"This is Venus' first transit in front of the sun since quantitative astronomical spectroscopy was invented," explains Brown, "so it's our first chance to use the technology to observe close up the transit of a planet with an atmosphere." Venus, Mars, and Earth constantly orbit the sun. Only when the orbital planes and positions align in a particular way is a transit across the solar disk by Mars or Venus visible from Earth.

Brown will examine the Venusian atmosphere using a vacuum tower telescope located on Tenerife in the Canary Islands, a Spanish province near the northwest coast of Africa. The 70-centimeter solar telescope and its infrared spectrograph are operated by the Kiepenheuer Institute in Freiburg, Germany. The spectrograph works well for the occasion since the planet's atmosphere is composed almost entirely of carbon dioxide, a gas that absorbs near-infrared radiation.



View of the planet Venus.
Credit: NASA

Full size image available through contact

Scientists have learned much about Venus' atmosphere since its discovery two hundred years ago. In recent times, probes from orbiting spacecraft have measured its chemical composition and temperature at various heights. These data have enabled scientists to construct computer models of the planet's atmosphere. But the region that Brown will be observing has escaped close scrutiny until now.

"I hope to make a substantial addition to knowledge of an atmospheric region not well observed in the past," says Brown. "But also the experiment will be a source of great inspiration and motivation for investigating the atmospheres of extrasolar planets."

Applying spectroscopy to a distant planet too tiny to see directly is a challenge far greater than observing a neighboring planet in our own solar system.

"Observations of extrasolar planets as precise and compelling as those of Venus will not happen in my lifetime or that of my children," says Brown. "What we can see on Venus today previews what will be seen on far distant planets long after I'm gone. You could say it's cheating on time."

Brown believes his own observations of a planet circling the star HD209248 will reveal whether there are significant clouds, dust, or particles in that planet's upper atmosphere, how big the particles are, and what the dust is made of.

The planet is so close to its star that its annual orbit lasts only 3.5 days, and it is perpetually blasted by ultraviolet radiation and thousand-degree heat.

"Whatever can withstand those temperatures is what's there," says Brown. "In other words, no little green men."

Brown's other collaborators in the Venus observations are Wolfgang Schmidt and Helmhold Schleicher, both of the Kiepenheuer Institute, and Roi Alonso Sobrino, a graduate student at the Astrophysics Institute of the Canary Islands. NASA also funds Brown's extrasolar planet research.

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Media Contacts:
NSF: Cheryl Dybas, 703-292-7734, cdybas@nsf.gov
NCAR: Anatta, 303-497-8604, anatta@ucar.edu

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NSF Program Contact: Jarvis Moyers, 703-292-8520, jmoyers@nsf.gov

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