Rochester Cloak

A Rochester Cloak is a cloaking device which can be built using inexpensive, everyday materials. John Howell, a professor of physics at the University of Rochester, and graduate student Joseph Choi developed the device, which features four standard lenses that allows an object to appear invisible as the viewer moves several degrees away from the optimal viewing positions.[1][2] [3]

How to make your own device

The scientists at University of Rochester provided steps to make this cloaking device. These 4 steps are required to be followed:

1.Purchase 2 sets of 2 lenses with different focal lengths f1 and f2 (4 lenses total, 2 with f1 focal length, and 2 with f2 focal length).

2.Separate the first 2 lenses by the sum of their focal lengths (So f1 lens is the first lens, f2 is the 2nd lens, and they are separated by t1= f1+ f2).

3.Do the same in Step 2 for the other two lenses.

4.Separate the two sets by t2=2 f2 (f1+ f2) / (f1-- f2) apart, so that the two f2 lenses are t2 apart.[4]

References

  1. Brownlee, John (October 1, 2014). "The First Practical Invisibility Cloak Is Here". Fast Company.
  2. Orwig, Jessica (October 1, 2014). "How To Make An 'Invisibility Cloak' At Home For Under $100". Business Insider (Indian edition).
  3. Choi, Joseph S.; Howell, John C. (November 18, 2014). "Paraxial ray optics cloaking". Optics Express 22 (24): 29465-29478. doi:10.1364/OE.22.029465.
  4. Healy, Allie (September 28, 2014). "Harry Potter's 'invisibility cloak' cracked: University of Rochester scientists create masking device". Syracuse.com.
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