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pacome delva

Invisibility cloaks shield the large and visible - physicsworld.com - 1 views

physicsworld.com/...44641

phy metamaterials transformation_optics

shared by pacome delva on 04 Jan 11 - No Cached
  • Two independent groups of physicists have built invisibility cloaks that can shield large objects lying on a plane. These "carpet cloaks" are far closer to the intuitive idea of an invisibility cloak than devices previously built, they argue, because they hide objects that can be seen with the naked eye and do so at visible wavelengths. The cloaks are also relatively cheap and easy to make, being constructed from the natural material calcite.
  • The team used a technique known as transformation optics to design their cloak.
  • Tomas Tyc of Masaryk University in the Czech Republic, who was not a member of either group, thinks that the papers "describe important achievements in the area of experimental cloaking." But he maintains that a carpet cloak is quite different to a fully fledged Harry Potter-style invisibility cloak. He points out that a carpet cloak only really works when viewing an object – be it a rucksack or a sword on someone's back, for example – side on. Otherwise the object will appear flat but still be visible.
Luís F. Simões

Stepping Away From the Trees For a Look at the Forest | Science/AAAS - 1 views

www.sciencemag.org/...1612.full

science technology cosmology astronomy exoplanets mars metamaterials climate_change BIO dna microbes cell

shared by Luís F. Simões on 22 Dec 10 - No Cached
  • An ingenious new tool triggers a cascade of new insights. In this special section, Science's news reporters and editors mark the end of the current decade by stepping back from weekly reporting to take a broader look at 10 insights that have changed science since the dawn of the new millennium.
  • Luís F. Simões on 22 Dec 10
     
    For a direct link to the 10 articles, showing their abstracts, go here.
LeopoldS

Cloaking of a phase object in ghost imaging | Browse - Applied Physics Letters - 0 views

apl.aip.org/...p111102_s1

PHY science metamaterials

shared by LeopoldS on 20 Sep 11 - No Cached
  • LeopoldS on 20 Sep 11
     
    sante can you have a look at this?
pacome delva

Physics - Seeing without being seen - 0 views

syrte.obspm.fr/...47

metamaterials phy nano

shared by pacome delva on 10 Jun 09 - No Cached
  • nikolas smyrlakis on 10 Jun 09
     
    pacome is back!
  • nikolas smyrlakis on 10 Jun 09
     
    although we can't access the link;p
  • pacome delva on 11 Jun 09
     
    oups i corrected this (up)
ESA ACT

Super Antennas, Made From 'Invisible' Stuff | Danger Room from Wired.com - 0 views

blog.wired.com/...air-force-seeks.html

metamaterials

shared by ESA ACT on 24 Apr 09 - Cached
  • ESA ACT on 24 Apr 09
     
    should we send them our reports? :-)
ESA ACT

New 'Metamaterial' Brings Scientists Closer Than Ever to a Cloaking Device - 0 views

www.wired.com/...metamateria

science technology materials

shared by ESA ACT on 24 Apr 09 - Cached
  • ESA ACT on 24 Apr 09
     
    another one ... relevant for Ariadna?
pacome delva

Physics - Taking the wraps off cloaking - 0 views

physics.aps.org/...95

phy metamaterials cloaking

shared by pacome delva on 18 Nov 09 - Cached
  • pacome delva on 18 Nov 09
     
    nice presentation...
LeopoldS

Optics InfoBase - Photorealistic images of carpet cloaks - 3 views

www.opticsinfobase.org/abstract.cfm

metamaterials optics NAN nanoengineering

shared by LeopoldS on 17 Nov 09 - Cached
  • LeopoldS on 17 Nov 09
     
    nice paper ... José and Luzi you will like it ...
Luzi Bergamin

[1107.0167] Nonlinear transformation optics and engineering of the Kerr effect - 9 views

arxiv.org/1107.0167

PHY nan optics metamaterials

shared by Luzi Bergamin on 04 Jul 11 - No Cached
LeopoldS liked it
  • Luzi Bergamin on 04 Jul 11
     
    The best paper on transformation optics written ever :-)
  • ...2 more comments...
  • jmlloren on 05 Jul 11
     
    Finally something worth to read in the MM field!. The idea is excellent, congratullations. However, I think there is a typo or mistake in the definition of l=3x10-13 m, the "waist" of the laser beam. Seems clear that 0.3 pm is too small for being a waist of any laser beam.
  • Luzi Bergamin on 05 Jul 11
     
    Thanks for your commendation. Of course, the problem with nonlinear transformation optics is the same as with linear: it's very easy to come up with theoretical descriptions of devices that have the most absurd properties, but it will be extremely hard to fabricate them. But if you have any good suggestion, please shoot! About the laser beam: Pekka made the simulations, since I am not a "Comsolist", but still I think the numbers are correct. You are right that we should not call this a laser beam. Our problem was the following: we need to have a very simple model that can be simulated exactly (full Maxwell equations) but naturally exhibits self focusing. The Gaussian beam was the simplest solution. Since our model is purely classical and moreover we do not take into account diffraction effects, the parameter "l" is of minor importance. Taking "l" much larger gives almost the same picture but requires much more computer power to simulate. I guess that's why Pekka chose an unnaturally small number.
  • jmlloren on 05 Jul 11
     
    Concerning the fabrication... as usual, no idea. I agree that this is the main drawback of MM, and certainly difficult to overcome. I would double check that number, because its value is related with the beam shape of Fig. 1 A. I believe that the simulations are correct, it's just a detail.
  • LeopoldS on 06 Jul 11
     
    wow ... still publishing despite babysitting and new job!!
htoftevaag

Machine Learning for Accelerated and Inverse Metasurface Design - 0 views

www.osa.org/..._accelerated_and_inverse_metas

technology metamaterials ML DNN

shared by htoftevaag on 07 Dec 20 - No Cached
  • htoftevaag on 07 Dec 20
     
    If you have 45 minutes and you want to learn a bit about inverse design of metasurfaces using machine learning, then I would highly recommend this talk. I found it very easy to follow both the physics and machine learning parts of it.
derekaranguren

Proprioceptive three-dimensional architected robotic metamaterials - 2 views

www.science.org/...science.abn0090

shared by derekaranguren on 24 Jun 22 - No Cached
  • derekaranguren on 24 Jun 22
     
    Super cool 3D printed material devices!!
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