Skip To Content
ADVERTISEMENT

References and Resources

J. Zhu and L. L. Goddard. “All-dielectric concentration of electromagnetic fields at the nanoscale: The role of photonic nanojets,” Nanoscale Adv. 1, 4615 (2019).

B. S. Luk’yanchuk et al. “Refractive index less than two: photonic nanojets yesterday, today and tomorrow,” Opt. Mater. Express 7, 1820 (2017).

Z. Zhen et al. “An ultranarrow photonic nanojet formed by an engineered two-layer microcylinder of high refractive-index materials,” Opt. Express 27, 9178 (2019).

H. S. Patel et al. “Generation of highly confined photonic nanojet using crescent-shape refractive index profile in microsphere,” Opt. Commun. 415, 140 (2018).

S.-C. Kong et al. “Quasi one-dimensional light beam generated by a graded-index microsphere,” Opt. Express 17, 3722 (2009).

C. Y. Liu et al. “Engineering photonic nanojet by a graded-index micro-cuboid,” Physica E 98, 105 (2018).

I. V. Minin et al. “Specular-reflection photonic nanojet: Physical basis and optical trapping application,” Opt. Express 28, 22690 (2020).

C. Y. Liu et al. “First experimental observation of array of photonic jets from saw-tooth phase diffraction grating,” Europhys. Lett. 123, 54003 (2018).

I. V. Minin et al. “Experimental demonstration of a tunable photonic hook by a partially illuminated dielectric microcylinder,” Opt. Lett. 45, 4899 (2020).

P. Zhang et al. “Large-scale fabrication of photonic nanojet array via template-assisted self-assembly,” Micromachines 11, 473 (2020).

C. R. Ocier et al. “Direct laser writing of volumetric gradient index lenses and waveguides,” Light Sci. Appl. 9, 196 (2020).

J. Zhu and L. L. Goddard. “Spatial control of photonic nanojets,” Opt. Express, 24, 30444 (2016).

Z. Wang et al. “Optical virtual imaging at 50 nm lateral resolution with a white-light nanoscope,” Nat. Commun. 2, 218 (2011).

H. Yang et al. “Super-resolution imaging of a dielectric microsphere is governed by the waist of its photonic nanojet,” Nano Lett. 16, 4862 (2016).

X. Liu et al. “Selecting a proper microsphere to combine optical trapping with microsphere-assisted microscopy,” Appl. Sci. 10, 3127 (2020).

B. Du et al. “Super-resolution imaging with direct laser writing–printed microstructures,” J. Phys. Chem. A 124, 7211 (2020).

K. A. Sergeeva et al. “Highly-sensitive fluorescent detection of chemical compounds via photonic nanojet excitation,” Sens. Actuators B 305, 127354 (2020).

A. Kudlinski et al. “Double clad tubular anti-resonant hollow core fiber for nonlinear microendoscopy,” Opt. Express 28, 15062 (2020).

A. Shakhov et al. “Microparticle manipulation using femtosecond photonic nanojet-assisted laser cavitation,” Opt. Lett. 43, 1858 (2018).

Y. X. Ren et al. “Photonic nanojet mediated backaction of dielectric microparticles,” ACS Photon. 7, 1483 (2020).

C. B. Lin et al. “Optimal photonic nanojet beam shaping by mesoscale dielectric dome lens,” J. Appl. Phys. 127, 243110 (2020).

I. V. Minin et al. “Improvement of a terahertz detector performance using the Terajet effect in a mesoscale dielectric cube: Proof of concept,” Phys. Status Solidi RRL 14, 1900700 (2020).

Y. Samura et al. “Characterization of mesoscopic dielectric cuboid antenna at millimeter-wave band,” IEEE Antennas Wirel. Propag. Lett. 18, 1828 (2019).

O. V. Minin and I. V. Minin. “Acoustojet: Acoustic analogue of photonic jet phenomenon based on penetrable 3D particle,” Opt. Quantum Electron. 49, 54 (2017).

Add a Comment