For the first time, scientists have measured the rate at which high-energy neutrinos are absorbed by our planet, a development that could lead to discoveries about physics and the Earth.
Physics has demonstrated that the everyday phenomena we experience are governed by universal principles applying at time and distance scales far beyond normal human experience.
The sighting of Jupiter's moons by Galileo Galilei resonates through science and history. Using a handmade telescope in January 1610, Galileo confirmed the Copernican theory that the planets moved around the sun; the Earth was not the center of the solar system.
The neutrino experiment K2K (KEK to Kamioka) collaboration shares a logbook with Super-Kamiokande scientists at its far detector site 250 kilometers from KEK in Tsukuba.
U-Ser Jeng begins almost every morning with a refreshing 40-minute bike ride, meandering through a mountain road surrounded by the sound of birds singing.
Forty years ago, Korea was a poor country with low per capita income, considered a developing nation by the rest of the world. Things have changed–enormously. Today, Korea is an industrial powerhouse; its 50 million citizens are recognized for the production of cars and electronic goods.
A step away from the cars scuttling down the streets of Delhi, precisely arranged on a tame green lawn, is what looks like a giant's playground. Twin cylinders squat at the far end. A pole stands at the center of each, matching the windowed cylinders' radii and heights.
You can't start a high-energy physics program in a remote third-world country overnight. But you might be able to do it in fifteen years. That is what Vietnamese and American physicists hope to do by helping Vietnamese students to become part of the worldwide particle physics community.