Facebook Pitches Laser Beams As The High-Speed Internet Of The Future (pcworld.com) 93
An anonymous reader quotes a report from PCWorld: Facebook says it has developed a laser detector that could open the airwaves to new high-speed data communications systems that don't require dedicated spectrum or licenses. The component, disclosed on Tuesday in a scientific journal, comes from the company's Connectivity Lab, which is involved in developing technology that can help spread high-speed internet to places it currently doesn't reach. At 126 square centimeters, Facebook's new laser detector is thousands of times larger. It consists of plastic optical fibers that have been "doped" so they absorb blue light. The fibers create a large flat area that serves as the detector. They luminesce, so the blue light is reemitted as green light as it travels down the fibers, which are then bundled together tightly before they meet with a photodiode. It's described in a paper published on Tuesday in the journal Optica. Facebook says there are applications for the technology both indoors and outdoors. Around the home, it could be used to transmit high-definition video to mobile devices. Outdoors, the same technology could be used to establish low-cost communications links of a kilometer or more in length. In tests, the company managed to achieve a speed of 2.1Gbps using the detector, and the company thinks it can go faster. By using materials that work closer to infrared, the speed could be increased. And using yet-to-be developed components that work at wavelengths invisible to the human eye, the speed could be increased even more. If invisible to humans, the power could also be increased without danger of harming someone, further increasing speed and distance.
Harm (Score:5, Insightful)
Yes, because as everybody knows, UV does no damage to the human eye...
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You instinctively turn away from visible lasers (Score:4, Informative)
Yeah invisible lasers are normally considered MORE dangerous. When even a 5mw visible laser hits your eye, you instinctively turn away immediately. The extremely bright light is uncomfortable. If you can't see it, you don't instinctively turn away. See Chuang LH, Lai CC, Yang KJ, Chen TL, Ku WC (2001). "A traumatic macular hole secondary to a high-energy Nd:YAG laser".
OSHA and other bodies require EXTRA safety measures for invisible or nearly invisible lasers. (Near infrared fiber optic lasers can appear to be a dim red. They are actually very bright, just on the verge on the wavelength humans can see.)
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It seems that that absurdity in pcworld is the author's poor interpretation of this:
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The only thing that pops in my mind regarding this story is https://www.youtube.com/watch?... [youtube.com] or possibly this https://www.youtube.com/watch?... [youtube.com] or even https://www.youtube.com/watch?... [youtube.com]. Just a funny thought, all those blockers of continuous narrow beam laser light transmissions ;D.
Re:Harm (Score:4, Informative)
385nm is invisible to almost all humans, being on the long-ish wavelength of UV, and I wouldn't really say it was very damaging. Everyone likes to jump on the bandwagon like they actually know something about UV when in fact they don't. I've worked with it over 25 years, still do. Out of the millions of products sold, I've never had an injury reported. People do get hurt with UV, but that is exceedingly rare and usually because they didn't follow directions or did something really stupid.
Inside fiber, it is pretty harmless. Most plastics block it (excepting OP4 acrylic), the vast majority of paints absorb it and won't reflect it. It has a smaller wavelength, thus more waves per centimeter, ie: more data. I'm not saying their plan is good or bad, but blanket calling UV dangerous and not workable is ignorant.
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Inside fiber, it is pretty harmless.
Perhaps you missed the fact that this system is intended for wireless (i.e. fiberless, too) data transmission.
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"385nm is invisible to almost all humans, being on the long-ish wavelength of UV, and I wouldn't really say it was very damaging."
Your research is way out of date. Every LED unit with UV-A I've ever sold was required to have a level 2 JEDEC eye hazard warning.
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Indeed, UVA is quite dangerous to human eyes - even though there are other wavelengths that are more dangerous. Metal halide lights for example kick out a great deal of UVA. To prevent eye damage they have to have a filter to block it. In cases where the filter has been damaged it can lead eye damage and even temporary blindness.
I think perhaps the person is confusing the fact that UVA doesn't damage DNA (except indirectly) with it not being damaging to the eye.
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http://www.jedec.org/sites/def... [jedec.org]
What, you fucking moron? They most certainly assist in specifying safety regulations for how workers should handle radiated things in certain manufacturing environments.
Try again when you've make equipment following some of their standards.
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Ah, you're right, I'm mixing up my industry groups. AIHA is the specific group.
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Kind of funny, our company is on the cutting edge actually, but in fluorescents, not LEDs, which are terrible for producing what we would consider high output of UVB or UVA. There is a huge difference between 320nm and 399nm, yet both are "UVA". 320nm has a lot more energy, and as you up in frequency (down in nm), it forms a Bell curve and gets exponentially more damaging. It also goes down in penetration, which is why you can get a quick flash burn from UVC (100nm-280nm) that doesn't penetrate more than
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If invisible to humans, the power could also be increased without danger of harming someone
You got it. If you can't see it then it can't hurt you. Or at least you can't protect yourself from it and will have a hard time proving that we were the one who did something to you.
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Do not stare at Internet with remaining eye?
About your sig (OT) (Score:2)
While I personally agree with this, since there are apparently many that do not, I believe that the best compromise would be for slashdot to process text through a unicode filter when a user clicks the submit button, and if any non-ascii is detected, then it should go to a warning screen and require resubmission to accept it, similar to what happens if you happen to have a short response and click 'submit
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That's not the problem with Unicode (some bias against it). The problem is all the control codes/characters that can affect objects outside the bounds of the comment box. Of course the answer is blocking those or whitelisting a wide amount of Unicode characters. And I guess Slashdot either doesn't want to dedicate the resources, or just know that it will be called censorship when they allow some, but not all, of UTF-8 or more.
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Why yes. Just like radiation. And viruses.
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Yeah, imagine the bandwidth we could get out of the gamma ray end of the spectrum (which is also invisible to humans)
It's larger! (Score:5, Insightful)
Umm. Than what? Who writes this crap?
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Wrong. Larger THAN. Hi BeauHD!
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1km is useless (Score:2)
If the last mile problem could be solved with 1km more reach, we'd have done it with wires already.
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for the entire block
I think you missed the important point. You can't get away with just patching or repaving the affected area.
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I think you missed the important point. You can't get away with just patching or repaving the affected area.
I think we're all missing the most important point. American infrastructure is shit. It's better than living in bumfuck Peru or something, but it's still goddamned pathetic. We've got a ton of expired bridges that are about to fall over (and a few which already have), our broadband penetration is the worst in the developed world even though we invented the damned thing, and since you mention those roads, they probably need paving anyway. Might as well lay some fiber under there while doing the patching that
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since you mention those roads, they probably need paving anyway. Might as well lay some fiber under there while doing the patching that... well, that we're not going to do.
So you're saying that cities should just stop paying for roads and have ISP's and data carriers handle all road work from now on?
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So you're saying that cities should just stop paying for roads and have ISP's and data carriers handle all road work from now on?
Actually, what I'm saying (but wasn't earlier) is that we should have a social works program to solve both problems.
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Is it 1992 again? (Score:1)
Laser beams are the high speed internet of today
Weather effects stop transmission of laser light. (Score:3)
Weather would prevent transmission through the air outside, of all wavelengths. Raindrops scatter light. Fog scatters light.
Re:Weather effects stop transmission of laser ligh (Score:5, Funny)
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Short-wave Infrared goes through smoke and fog (cf. this [nasa.gov]). Then it is just a matter of attenuation, you just have to pump more power.
What is fun is indeed snooping on the communication via the light scattered away from the beam.
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Not if the laser is strong enough :-)
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We had a point-to-point data connection between two of our buildings. It was unreliable to say the least as soon as the weather took a turn for the worse.
3 hours and no shark jokes? (Score:2)
What the hell, Slashdot?
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How about this one: RFC 1149 [ietf.org] needs to be revised to include sharks?
Don't smoke crack kids (Score:1)
Here's an idea (Score:3)
You can tell the idea in the summary came from a software company and not a hardware company. Reinventing the wheel as a square thing made of rock.
Stoooooooooopid (Score:4, Insightful)
"If invisible to humans, the power could also be increased without danger of harming someone, further increasing speed and distance."
That's an incredibly stupid thing to say, since it isn't true. Just because it's "invisible" to human eyes doesn't mean that it can't/won't hurt human eyes.
Seriously, the level of stupid in that one sentence makes me dizzy.
Re:Stoooooooooopid ; no, just optimistic (Score:3)
But this was about UV light spreading out over several square inches at distance. The lens of the eye is cloudy to near-UV light, and won't focus to a spot. The reason it's invisible, makes it less likely to damage y
Why do we care that Facebook is doing this? (Score:3)
Freespace optical communication has been around for a long, long time. It's a problematic system to use in an atmosphere, since anything and everything can degrade the throughput. So, now we get to use a system the is horribly degraded whenever it's foggy, rains, or birds are flying around? No thank you.
Other systems have shown to achieve 10GB/s, so their test of 2GB/s isn't that revolutionary.
Let's stop the clickbait of *random famous company does something that other people have done before*.
RFC 1925, Part 11 compliant (Score:2)
Glad to hear that Facebook is following RFC 1925 part 11 and proposing something that countless others have tried and failed to do widespread, because of physics.
Keep proving those universal networking truths!
NASA has been experimenting with laser comm. (Score:1)
yeah...no (Score:2)
> If invisible to humans, the power could also be increased without danger of harming someone,
Apparently someone doesn't understand lasers.
It's been ... (Score:2)
IR is back! (Score:2)
Well, I guess my tv remote always had it. Remember when your laptop did?