Published: July 27, 2017

This week's top research exploresÌýa cost-effective approach to containing airborne illnesses, North America's largest-ever particle physics experiment and an automated emissions monitoring system at ºù«ÍÞÊÓƵ Reservoir.

Engineers demonstrate large-scale 'germ trap' solution for hospitals

When an infectious airborne illness strikes, some hospitals use negative pressure rooms to isolate and treat patients. These rooms use ventilation controls to keep germ-filled air contained,Ìýbut,Ìýin the event of an epidemic, theÌýrooms can fill up quickly. Now, a team of CU ºù«ÍÞÊÓƵ engineers have demonstrated a simple, cost-effective way for hospitals to use air ventilation to contain outbreaks.Ìý

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Largest particle physics experiment in North America breaks ground

Professors Alysia Marino and Eric Zimmerman are participatingÌýin the construction of the Long-Baseline Neutrino Facility, which will house North America's largest particle physics project ever. Though it will take roughly a decade to complete, the facility will eventually shoot a beam of neutrinos through the Earth's crust from Illinois to South Dakota, all to better understand how and why the universe formed.

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Tracking ºù«ÍÞÊÓƵ's air quality in real time

Researchers have created an automated emissions monitoring system at ºù«ÍÞÊÓƵ Reservoir that tracks methane and other harmful atmospheric gasesÌýin near-real time.ÌýIn recent years, areas of the Front Range have recorded levelsÌýthat well exceed concentrations seen in some urban industrial areas. The project is believed to be the first of its kind in the Rocky Mountain region.

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