I teach physics to college art students at the School of the Art Institute of Chicago. You have published three issues of symmetry, and each time I've found something in it to point out to my students.
When my wife is intrigued by the cover of a particle physics magazine, as she was with the February issue of symmetry, you know your editors and designers are doing a good job.
Unless you're looking for them, you might not notice the two stone gargoyles standing watch over building 280 at Stanford Linear Accelerator Center. In fact, for the first month they were in place, not many people did notice them.
Before the days of the World Wide Web, scientists would mail their colleagues preprints, hard copies of papers submitted to scientific journals. In 1991, particle physicists began posting these papers on the Web, calling them e-prints.
Working at Stanford Linear Accelerator Center, you never know what projects may come your way. So when Helen Quinn, head of education outreach at SLAC, asked me to plant trees with a class of fourth graders, I said sure, it's not rocket science.
Fermilab's new Girl Scout badge has troop #312 excited about "atoms and buffalo." Unlike a field trip where kids visit Fermilab to learn about physics in an "educational environment," the Girl Scouts' Fermilab outing lets kids come with their friends and a scout lead
Do you know why Louis Victor de Broglie won a Nobel Prize in 1929? Or why a Nobel Prize wasn't given out in 1934? What about Nils Gustaf Dalen's invention of an automatic sun valve beating out Max Planck and Albert Einstein for the Nobel Prize in 1912?
Because particle physicists cannot directly see the objects they study, they rely on deduction and decay products to detect nature's tiny, ephemeral particles.
I have heard conflicting reports as to who decided to call one of the most spectacular intellectual innovations of human history "the Standard Model," physicists' best construct for explaining the range and behavior of elementary particles that make up the universe as we know it.
Physicists and scientists of other disciplines around the world have created countless research sites that remind me of the colossal dimensions of ancient temples, in one way; and, in another, of fragile, beautiful little altars where they orchestrate experiments, with research objects largely in
Custom designed microchips have become essential in processing signals from modern physics experiments that generate lots of data. This chip, the QIE9, designed by Fermilab engineers, is just one example of the many Application Specific Integrated Circuits (ASICs) used in such experiments.
