Macroscopic infrared invisibility cloaking with wide viewing angles
A macroscopic infrared invisibility cloak can hide any real-world object that is of centimeter size from being detected by the thermal detectors such as a FLIR thermal camera. A major limitation of current macroscopic infrared invisibility cloak designs via simplified transformation optics is that t...
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sg-ntu-dr.10356-705692023-02-28T23:17:05Z Macroscopic infrared invisibility cloaking with wide viewing angles Santosh Yadaw s/o Prabsankal Zhang Baile School of Physical and Mathematical Sciences DRNTU::Science A macroscopic infrared invisibility cloak can hide any real-world object that is of centimeter size from being detected by the thermal detectors such as a FLIR thermal camera. A major limitation of current macroscopic infrared invisibility cloak designs via simplified transformation optics is that the cloak’s performance is limited to only a discrete number of viewing angles. In this Final Year Project, we have overcome this major limitation by successfully designing a macroscopic infrared invisibility cloak via paraxial optics. Our macroscopic infrared invisibility cloak consists of four identical thin prisms made of Zinc Sulphide that is capable of cloaking instantaneously a centimeter size real-world object from detection in the far infrared region by a thermal camera for continuous wide viewing angles of between ± 10⁰. Bachelor of Science in Physics 2017-05-02T02:30:12Z 2017-05-02T02:30:12Z 2017 Final Year Project (FYP) http://hdl.handle.net/10356/70569 en 68 p. application/pdf |
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DRNTU::Science Santosh Yadaw s/o Prabsankal Macroscopic infrared invisibility cloaking with wide viewing angles |
| description |
A macroscopic infrared invisibility cloak can hide any real-world object that is of centimeter size from being detected by the thermal detectors such as a FLIR thermal camera. A major limitation of current macroscopic infrared invisibility cloak designs via simplified transformation optics is that the cloak’s performance is limited to only a discrete number of viewing angles. In this Final Year Project, we have overcome this major limitation by successfully designing a macroscopic infrared invisibility cloak via paraxial optics. Our macroscopic infrared invisibility cloak consists of four identical thin prisms made of Zinc Sulphide that is capable of cloaking instantaneously a centimeter size real-world object from detection in the far infrared region by a thermal camera for continuous wide viewing angles of between ± 10⁰. |
| author2 |
Zhang Baile |
| author_facet |
Zhang Baile Santosh Yadaw s/o Prabsankal |
| format |
Final Year Project |
| author |
Santosh Yadaw s/o Prabsankal |
| author_sort |
Santosh Yadaw s/o Prabsankal |
| title |
Macroscopic infrared invisibility cloaking with wide viewing angles |
| title_short |
Macroscopic infrared invisibility cloaking with wide viewing angles |
| title_full |
Macroscopic infrared invisibility cloaking with wide viewing angles |
| title_fullStr |
Macroscopic infrared invisibility cloaking with wide viewing angles |
| title_full_unstemmed |
Macroscopic infrared invisibility cloaking with wide viewing angles |
| title_sort |
macroscopic infrared invisibility cloaking with wide viewing angles |
| publishDate |
2017 |
| url |
http://hdl.handle.net/10356/70569 |
| _version_ |
1759856942511030272 |