Misha Pivnenko
Misha Pivnenko
Verified email at cam.ac.uk
Cited by
Cited by
Liquid crystal ‘blue phases’ with a wide temperature range
HJ Coles, MN Pivnenko
Nature 436 (7053), 997-1000, 2005
Enhanced emission from liquid-crystal lasers
SM Morris, AD Ford, MN Pivnenko, HJ Coles
Journal of Applied Physics 97 (2), 023103, 2005
The emission characteristics of liquid‐crystal lasers
SM Morris, AD Ford, C Gillespie, MN Pivnenko, O Hadeler, HJ Coles
Journal of the Society for Information Display 14 (6), 565-573, 2006
Electronic control of nonresonant random lasing from a dye-doped smectic liquid crystal scattering device
SM Morris, AD Ford, MN Pivnenko, HJ Coles
Applied Physics Letters 86 (14), 141103, 2005
Demonstration of multi-casting in a 1× 9 LCOS wavelength selective switch
B Robertson, H Yang, MM Redmond, N Collings, JR Moore, J Liu, ...
Journal of lightwave technology 32 (3), 402-410, 2013
High-birefringence nematic liquid crystal for broadband THz applications
X Li, N Tan, M Pivnenko, J Sibik, JA Zeitler, D Chu
Liquid Crystals 43 (7), 955-962, 2016
The effects of reorientation on the emission properties of a photonic band edge liquid crystal laser
SM Morris, AD Ford, MN Pivnenko, HJ Coles
Journal of Optics A: Pure and Applied Optics 7 (5), 215, 2005
Diffraction based phase compensation method for phase-only liquid crystal on silicon devices in operation
Z Zhang, H Yang, B Robertson, M Redmond, M Pivnenko, N Collings, ...
Applied optics 51 (17), 3837-3846, 2012
Correlations between the performance characteristics of a liquid crystal laser and the macroscopic material properties
SM Morris, AD Ford, MN Pivnenko, O Hadeler, HJ Coles
Physical Review E 74 (6), 061709, 2006
High quality assembly of phase-only liquid crystal on silicon (LCOS) devices
Z Zhang, AM Jeziorska-Chapman, N Collings, M Pivnenko, J Moore, ...
Journal of Display Technology 7 (3), 120-126, 2011
Pixel-level fringing-effect model to describe the phase profile and diffraction efficiency of a liquid crystal on silicon device
T Lu, M Pivnenko, B Robertson, D Chu
Applied optics 54 (19), 5903-5910, 2015
Compact phase shifter based on highly anisotropic liquid crystals for microwave frequency
D Jiang, H Xu, M Pivnenko, D Chu
Electronics letters 50 (7), 525-526, 2014
Fast bistable intensive light scattering in helix-free ferroelectric liquid crystals
A Andreev, T Andreeva, I Kompanets, N Zalyapin, H Xu, M Pivnenko, ...
Applied optics 55 (13), 3483-3492, 2016
Colorimetric-based detection of TNT explosives using functionalized silica nanoparticles
N Idros, MY Ho, M Pivnenko, MM Qasim, H Xu, Z Gu, D Chu
Sensors 15 (6), 12891-12905, 2015
Liquid crystal formulations and structures for smectic A optical devices
TV Clapp, WA Crossland, AB Davey, M Grasmann, JP Hannington, ...
US Patent 8,956,548, 2015
Dielectric anisotropy of nematic liquid crystals loaded with carbon nanotubes in microwave range
O Trushkevych, F Gölden, M Pivnenko, H Xu, N Collings, WA Crossland, ...
Electronics letters 46 (10), 693-695, 2010
High-resolution patterning of solution-processable materials via externally engineered pinning of capillary bridges
S Li, YT Chun, S Zhao, H Ahn, D Ahn, JI Sohn, Y Xu, P Shrestha, ...
Nature communications 9 (1), 1-9, 2018
A comparison of photonic band edge lasing in the chiral nematic N* and smectic C* phases
AD Ford, SM Morris, MN Pivnenko, HJ Coles
Liquid Crystal Materials, Devices, and Applications X and Projection …, 2004
Uniform and fast switching of window-size smectic A liquid crystal panels utilising the field gradient generated at the fringes of patterned electrodes
K Li, M Pivnenko, D Chu, A Cockburn, W O’Neill
Liquid Crystals 43 (6), 735-749, 2016
Liquid crystal lasers: coherent and incoherent microsources
SM Morris, AD Ford, BJ Broughton, MN Pivnenko, HJ Coles
Emerging Liquid Crystal Technologies 5741, 118-127, 2005
The system can't perform the operation now. Try again later.
Articles 1–20