Charles Hard Townes (1915 – 2015)

Charles Hard Townes

Charles Hard Townes, one of the winners of the 1964 Nobel Prize in Physics for developing the laser and a pivotal player in astronomy and reconciling science and religion, has died at the age of 99 after a brief illness.

“Charlie Townes had an enormous impact on physics and society in general. Our department and all of UC Berkeley benefited from his wisdom and vision for nearly half a century,” said Steven Boggs, professor and chair of the UC Berkeley Department of Physics.

“His overwhelming dedication to science and personal commitment to remaining active in research was inspirational to all of us. Berkeley physics has lost a true icon and our deepest sympathies go out to his wife, Frances, and the entire Townes family.”

Townes was born on July 28, 1915, in Greenville, South Carolina and was a precocious youngster, eventually earning his BS in physics at the tender age of 19 before completing his PhD at Caltech in 1939 with a thesis on isotope separation and nuclear spins.

He joined the legendary Bell Labs shortly afterwards and spent the Second World War designing radar systems. Once the conflict was over became a professor at Columbia University and focused his research on using microwave technology developed at Bell for the emerging field of spectrography.

Seeing the light

In 1951 the 35-year-old Townes was sitting in a public park in Washington DC when he was struck by a remarkable idea which he later likened to a religious experience. Townes though he could see a way to creating a pure beam of short-wavelength, high-frequency light, what we now know as the laser.

Einstein had proposed that such a device would be possible, but the scientific community was skeptical. When Townes began work on the project his fellow scientists told him to stop wasting his time.

“Look, you should stop the work you are doing. It isn’t going to work. You know it’s not going to work, we know it’s not going to work. You’re wasting money, Just stop!” he was told by the chairmen of his department Isidor Isaac Rabi and Polykarp Kusch, fellow researcher Edward Teller recounts.

Townes argued his case and refused to give up on the research. He later explained that he was able to refuse to stop his research because he had tenure, so there was nothing they could really do to stop him.

Three months later, in 1954, Townes and two students, James Gordon, and H. J. Zeiger, successfully built the first microwave amplification by stimulated emission of radiation (Maser) using ammonia gas. His boss immediately apologized to Townes.

Four years later Townes and his brother-in-law (and future Nobel Prize winner) Arthur Schawlow, conceived of a system that used mirrors at the end of a gas chamber to create a laser. In 1960 Theodore Maiman used these principles to develop the first laser, and Townes instantly saw the uses of the system for communications.

“Light has a very high bandwidth,” he said. “You can put an enormous amount of information on one light beam. One light beam can carry all the information that is transmitted in the world, in principle. I realized that and knew it would be of some importance, but didn’t know quite how important.”

Bell Labs promptly patented the laser, while Townes retained his patent on the maser, although he made it open source in the name of scientific advancement. In 1964 Townes got the Nobel Prize for his discovery, along with Russian boffins Aleksandr Prokhorov and Nicolai Basov, who had independently developed masers.

After looking down, Townes looked up

In 1967 Townes moved to the University of California Berkeley, where he remained for the rest of his career. He continued to work on masers and lasers, but changed his field of study to astronomy and developed radio and infrared telescopes using the technology.

Using these telescopes Townes and colleagues at Berkeley proved for the first time that complex molecules could exist in space – again bucking scientists who thought this was impossible. Using the telescopes they also showed that there was a super-massive black hole at the center of our galaxy

Using lasers he created the Infrared Spatial Interferometer Array, currently housed in movable trailers at the Mt. Wilson observatory outside Los Angeles, which is so precise that it can measure the diameter of distant stars, and found that Zaphod Beeblebrox’s home star is shrinking fast.

He also worked on developing receivers that could pick up lasers beamed to Earth from distant galaxies by extraterrestrial life, although there’s been no luck in picking up any signals as yet. Townes also served as a consultant to the Apollo program.

“The passing away of Professor Charles Townes today marks the end of an era,” said astrophysicist Reinhard Genzel, a professor of physics at UC Berkeley and director of the Max Planck Institute for Extraterrestrial Physics.

“He was one of the most important experimental physicists of the last century. To those who knew him as colleagues or students, he was a role model, a wonderful mentor and a deeply admired person. His strength was his curiosity and his unshakable optimism, based on his deep Christian spirituality.”

God and science can coexist

Townes also focused his attentions on the intersection of science and religion. A devout Christian, Townes caused controversy with his assertion that the two fields were not antithetical, but complementary.

In 1964 he published a speech on the subject in n IBM’s THINK magazine and the MIT Technology Review which was so controversial that a boycott of the latter magazine was proposed by one academic. He continued to publish on the topic and in 2005 was awarded the $1.5m Templeton Prize for Progress Toward Research or Discoveries about Spiritual Realities.

“My own view is that, while science and religion may seem different, they have many similarities, and should interact and enlighten each other,” Townes said in his acceptance speech.

“Science tries to understand what our universe is like and how it works, including us humans. Religion is aimed at understanding the purpose and meaning of our universe, including our own lives. If the universe has a purpose or meaning, this must be reflected in its structure and functioning, and hence in science.”

Townes continued to work regularly at Berkeley until last year, when he entered semi-retirement at the age of 98. On January 27 he fell ill and died in the ambulance on his way to Oakland hospital.

He is survived by his wife of 74 years, Frances Hildreth Townes (nee Brown), four daughters and six grandchildren.

Original article here:

This is what a real scientist looks like.

What a man.

Goodnight, Mr. Townes. We’ll catch up later.

Book of Mirrors

“Man cannot fly. But when you learn to fly you will soar.”

The predictable scoffer, always eager to prove their ignorance, would look at that phrase and say “See! That’s not just two contradictions, but it’s three. Thus, the speaker is a fool and his words should be ignored.”

And like what most skeptics say, you can ignore their venom. Leave them in darkness. Their contempt for meaning and their fetish for playing word games is boring and has no place in the study of the learned.

For the rest of us who actually understand meaning and the intentions of various texts, we would see the truth of this sentence.

Let us see this promise for what it really means:

“Man cannot fly” = Man does not have wings. He does not naturally possess the physiology, anatomy, morphology that grants physical flight. What—you think some nomad in the 3rd BCE didn’t know man didn’t have wings?

“But when you learn to fly…” = Because man can identify the phenomena of flight, demonstrated by creatures (birds) in the animal kingdom, he can use his intellect, his ambition and his growing knowledge of engineering to create an artificial means of flying. He would start with hang gliders, maybe parachutes and balloons before moving on prop planes, then jets. Eventually even rocketry. And in the future, maybe even a type of warp drive.

“…you will soar” = When you master flight you are going to love it. You enthusiasm will soar and what you can achieve through aviation will soar (commerce, medicine, provisions, cartography). You will see the world as you have never seen it standing on the ground. Your entire perspective will change.

The overwhelming number of alleged contradictions in the Bible are not contradictions at all, and only prove the person submitting them as such can’t read, and certainly can’t put things in context—not only of the chapter from which it was plucked, but the events surrounding it, history, and meaning.

To the fool a code is just a bunch of jumbled letters or unrelated numbers. But to the mathematician and the cryptographer in can be a wealth of knowledge and secrets.

But the Bible isn’t even a mere code, but it is a multi-layered master work of literature, history, poetry, symbolism, prophecy, and the journey of a resilient people history and her neighbors have proven incapable of destroying. Nonetheless, a child can read it and understand it, and the scholar can delve into its chapters and find mathematic formulations, hidden genealogies, lost cities and dead cultures, riddles, ancient languages, geological events, scientific predicates, and the wisdom of the ages.

The Bible is a mirror, and reflects the intelligence you bring to it long before it reveals to you the intelligence that produced it.

If you are a fool it will defeat you.