Looking back on the tech trends, triumphs and tribulation of 2013, a few patterns emerge: Private projects took off even while privacy took a beating; robots and AI servants made great strides while their drone cousins stalked us with cameras and weapons; reality was simultaneously augmented and scrutinized, while 3-D-printing and private-sector space races seemingly brought the whole world into the realm of DIY.
Category Archives: Imaging
Laser Communications Gets a Zap(pa) from Moon Unit
Lasers rank among the most vital and widespread technologies in the industrialized world, but for years they were considered a solution looking for a problem. One possible application lay in communications: Lasers, being of higher frequency and energy than radio, held the potential to communicate more information per second.
Fast-forward to October 2013, when NASA pulled off one of the most impressive proofs-of-concept in history. That month, a spacecraft orbiting the moon sent data 239,000 miles to Earth via a pulsed laser beam at a download rate of 622 megabits per second (by comparison, high-speed consumer data plans are usually measured in the tens of megabits). Everyone from cryptographers to high-speed Wall Street traders sat up and took notice. Sound cool? Read on as I explain…
How It’s Made: Crystal Edition
In physics, the term “crystal” designates a solid substance with internal symmetry and a related, regular surface pattern. But such a dry description cannot capture the intricacy and variety of materials found in snowflakes and crown jewels, or that power stereos and ultrasound machines, or that flavor our food. Nor can it convey the delicate dance of temperature, pressure and time that crystal growth requires.
Historically, growing crystals was as much art as science. Today, it requires precise technologies and technologies to control growth, often on a molecular scale.
Spotting ancient walls at 17,000 MPH
“You know, you can see it for miles – goes on for miles, over the hills and everything. But, so does the M6. Do you know what I mean? You can see that for miles. And you go, ‘Great. And that does a job. You can drive on that.’” Thus did an unimpressed Karl Pilkington of An Idiot Abroad describe the Great Wall of China, allegedly the only manmade object visible from space.
Which raises and interesting question: Why can’t you see the British M6 motorway from space? Or can you? For that matter, can you actually see the Great Wall?
Great Wall of China: Only Manmade Object Visible from Space?
Starlight, star bright, first shot I snap tonight
Photography is all about light; it’s right there in the name: photo (“light”) + graph (“means of recording”). So how do you shoot in the gloom between the golden hours? Well, you have a few options. You can pop in a flashbulb. You can try your hand at painting with light – that is, fiddling with f-stops and shutter speeds to let more light in over a longer period. Unfortunately, flashbulbs tend to wash out photos, and setting up longer exposures tends to limit your photographic freedom.
Night-vision cameras and attachments get around these problems, either by amplifying existing light or working with a different kind of ambient “light” – aka infrared radiation, either from body heat (thermal IR) or from an active IR illuminator attached to the camera. Today, infrared and ultraviolet cameras also make useful tools for inspections and field work. But how do they work, and what is their history?