![Experimental demonstration of linear and spinning Janus dipoles for polarisation- and wavelength-selective near-field coupling | Light: Science & Applications Experimental demonstration of linear and spinning Janus dipoles for polarisation- and wavelength-selective near-field coupling | Light: Science & Applications](https://media.springernature.com/m685/springer-static/image/art%3A10.1038%2Fs41377-019-0162-x/MediaObjects/41377_2019_162_Fig1_HTML.png)
Experimental demonstration of linear and spinning Janus dipoles for polarisation- and wavelength-selective near-field coupling | Light: Science & Applications
![Although electric and magnetic fields, as described by Maxwell's equations, are formally very similar, there is a striking asymmetry between electricity and magnetism in nature, associated with the apparent non-existence of elementary magnetic charges (ie ... Although electric and magnetic fields, as described by Maxwell's equations, are formally very similar, there is a striking asymmetry between electricity and magnetism in nature, associated with the apparent non-existence of elementary magnetic charges (ie ...](https://www.mathpages.com/home/kmath694/kmath694_files/image001.png)
Although electric and magnetic fields, as described by Maxwell's equations, are formally very similar, there is a striking asymmetry between electricity and magnetism in nature, associated with the apparent non-existence of elementary magnetic charges (ie ...
![PDF] Multipolar Transitions in Quantum Emitters: Beyond the Electric Dipole Approximation | Semantic Scholar PDF] Multipolar Transitions in Quantum Emitters: Beyond the Electric Dipole Approximation | Semantic Scholar](https://d3i71xaburhd42.cloudfront.net/2159aa48145317bd2e46f7d99d8ab76826b37f86/2-Figure1-1.png)
PDF] Multipolar Transitions in Quantum Emitters: Beyond the Electric Dipole Approximation | Semantic Scholar
![Explain an analogy between magnetic dipole moment M of circular current loop and electric dipole moment P of electric dipole. Explain an analogy between magnetic dipole moment M of circular current loop and electric dipole moment P of electric dipole.](https://haygot.s3.amazonaws.com/questions/2046083_1388215_ans_6b85d02891c543809d84e90646ca63fb.jpg)