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The new Vdara hotel in Las Vegas has a curved surface that creates what hotel staff call a "death ray", and which has burned at least one vacationer.  (Source: Cygnusloop99)

The fiery beam sweeps across the pool area daily.  (Source: MGM Resorts)

Temperatures under the beam can be 130 Fahrenheit or higher -- hot enough to melt or deform plastic like this newspaper bag (see melted away lettering).  (Source: ABC News)
Hot new Vdara hotel might be a little bit TOO hot

Bill Pintas was vacationing in Las Vegas when he decided to stay at the swank new Vdara hotel, a curvy 57-story tower owned by MGM Resorts.  He was sitting at the pool when he encountered something alarming.  He recalls, "I'm sitting there in the chair and all of the sudden my hair and the top of my head are burning.  I'm rubbing my head and it felt like a chemical burn. I couldn't imagine what it could be." 

Like an ant under a magnifying glass, he remembers running to an umbrella, but being unable to escape the hot light.  He recalls, "I used to live in Miami and I've sat in the sun in Las Vegas 100 times. I know what a hot sun feels like and this was not it.  My first inclination was thinking: Jesus we've destroyed the ozone layer because I am burning." 

Speaking with employees, he was alarmed to find out that the hotel staff was aware of the situation.  He recalls, "They're kind of giggling and say: 'Yeah, we know. We call it the death ray."

The "death ray" appears to be created by the glass surface of the hotel itself -- acting as a concentrating parabolic dish -- similar to those used to heat water to a boil in solar power systems.  The dish concentrates light on a 10-foot by 15-foot hot zone moving across the pool.  Temperatures in this area spike 20 degrees Fahrenheit -- or more.

Bill Pintas saw his plastic newspaper bag literally begin to melt.  The bag -- composed of polyethylene -- is designed to withstand temperatures of up to 120 to 130 degrees Fahrenheit.  And the employees recall seeing plastic cups -- which have a melting point of 160 degrees Fahrenheit – actually melting.

Other guests, including newspaper reviewers, have also observed the burning beam.

The hotel management doesn't call it a "death ray", they prefer the more friendly distinction "solar convergence phenomenon".  Gordon Absher, a spokesman for MGM Mirage says the hotel is addressing the problem, and comments, "Because of the curved, concave shape of that hotel, they sometimes get isolated pockets of high temperatures."

The hotel is baffled by how to solve the problem of the "death ray", though.  When initially constructing the building, they anticipated the issue and put a coating over the glass that absorbs 70 percent of the daytime sunlight.  However, that was not enough to reduce its painful effects.  And the ray sweeps across a wide area, making it hard to protect a specific region. 

Comments Mr. Absher, "This is quite literally an astronomical challenge," Absher said. "We are dealing with a moving target."

The mishap in architecture isn't as glaring as some of history's most notable mistakes -- such as the 1940 Tacoma Narrows Bridge, but it is pretty extraordinary.  It serves as a reminder that while many take the science and engineering of designing massive skyscrapers for granted these days, it remains a tricky business.

It looks like the Vdara may have exposed the wrong guest to the death ray, though --  Mr. Pintas is a Chicago-based lawyer.

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By Camikazi on 9/29/2010 3:31:39 PM , Rating: 5
Wow, this building absorbs 70% of the rays and still has enough juice to burn, I wanna see this thing without the coating, Burn Baby Burn!

RE: 70%
By Silver2k7 on 9/29/2010 3:56:01 PM , Rating: 2
What about those glass windows wich is also a solar panel.. would that absorb enough heat from to remove the hot pockets, while also generating electricity ??

RE: 70%
By Silver2k7 on 9/29/2010 4:01:00 PM , Rating: 3
while replacing all the glass might seem like an expensive solution, I suspect it might pay for itslef rather quickly with all the electricity it would make.

if it would work to remove the hotspot phenomena that is ^^

RE: 70%
By MarkK02474 on 9/29/2010 4:34:19 PM , Rating: 3
In Vegas, rather than upgrade something like glass, isn't their solution to blow the whole building up and rebuild? Its what they do to sports venues without enough corporate suites.

RE: 70%
By xsilver on 9/30/2010 1:54:36 AM , Rating: 4
Considering its vegas, why not turn it into a game?!

Put out a twister mats all around for spots and
at 4'oclock if you are the one that gets burnt then free bloody mary for you!

RE: 70%
By solarrocker on 9/29/2010 4:00:24 PM , Rating: 3
I was thinking the same thing, it doing this with 30% of the power, what will it do at full throttle. Come on baby show us the heat!

RE: 70%
By MarkK02474 on 9/29/2010 5:02:23 PM , Rating: 5
70% absorption is a misleading specification. That is likely for visible light blinding room residents. Infra-red light is probably >70% reflected to reduce air conditioning costs, thus heating beverages and lawyers.

Many specifications are designed to confuse because people have put their faith in numbers. The hotel is trying to mislead critics and plaintiffs. Audio specifications similarly never tell you if a piece of gear will sound good. More camera megapixels also has little to do with image quality and nothing to do with image noise, sensitivity, or dynamic range. Yet, more megapixels is promoted as always better, while a bigger image sensor is usually more important.

RE: 70%
By Lerianis on 9/29/10, Rating: 0
RE: 70%
By MarkK02474 on 9/30/2010 1:15:26 AM , Rating: 5
Wrong on both counts. A 3MP cell phone camera is much worse than an 9 yr. old 3MP Canon D30 SLR in quality, even.

70% of "all" is likely 98% of UV light, 80% of visible, and 5% of IR (heat). No coating is linear from DC to cosmic rays, nor do we want that. My whole point is that the hotel is being deceptive with its "facts".

RE: 70%
By theapparition on 9/30/2010 8:59:38 AM , Rating: 3
To strengthen the OP's point, unless this surface is a perfect reflector, some energy gets absorbed across the entire spectrum. However, it get's re-radiated at it's current temperature (see Plank and Blackbody radiation). Re-emitting energy at ambient temperatures, or anywhere near ambient, results in IR.

This phenomenon is exactly why greenhouses work, why dark car interiors get hotter than light car interiors, how lightbulbs work, why an electric element starts off black and as it gets hotter goes to red, orange, yellow. And also why despite what coating they put on, you'll still radiate IR unless you somehow absorb that energy and then dissipate the absorbed energy somewhere else.

RE: 70%
By VahnTitrio on 9/30/2010 10:12:09 AM , Rating: 2
I thought this too. To be honest though even 160 F is not unheard of for Las Vegas. Our desert profiles routinely go hotter than that for testing. I know for a fact surfaces in cars will get much hotter. Realistically you can burn yourself on anything in Vegas.

RE: 70%
By solarrocker on 10/1/2010 9:58:09 AM , Rating: 2
you can burn yourself on anything in Vegas.

Which brings a whole new meaning to the popular saying "oooh buuuuuurn" (according to tv, which we all know is the go all for popular sayings)

RE: 70%
By inperfectdarkness on 10/1/2010 5:34:11 AM , Rating: 2

the LA opera house had identical problems. the building had to be "de-buffed" to remove reflectiveness from the metal exterior.

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