So, how do we see the world of molecules and atoms? With light, of course.

University of Toronto researchers used the Canadian Light Source synchrotron, Canada’s only device of its kind, to develop ...

Searching for pulsars using the Large Phased Array (LPA) radio telescope, Russian astronomers have detected a bright pulse at ...

"Understanding the role of the different minerals, chemicals, and microbes involved will help improve models..." ...

Saskatoon is playing a critical role in developing a new way of fighting antibiotic-resistant bacteria. The city is home to Canada’s only synchrotron -- and as Josh Gwozdz tells us -- that means it's ...

As pointed out in ref. 1, these characteristics are typical of synchrotron emission from a well-collimated beam of electrons if we adopt the rotation model for the pulsar.

A synchrotron source has the capability of providing infrared light through a 10-μm pinhole that is 2–3 orders of magnitude brighter than a conventional Globar such as those available in ...

Over the past 75 years, China's development of key scientific facilities has advanced in leaps and bounds, most notably in ...

Researchers have wondered how an alligator-size arthropod lived more than 300 million years ago. The discovery of an intact ...

Scientists have discovered a low-cost method to significantly reduce this pollution from hydrogen internal combustion engines ...

In a paper published in National Science Review, a collaborative team of scientists report the development of a ...