Publications
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Filtry: Autor je Pavel Zemánek [Clear All Filters]
Simulation of optomechanical interaction of levitated nanoparticle with photonic crystal micro cavity. Opt. Express, 32, 7185–7196 (2024).
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Cooling the optical-spin driven limit cycle oscillations of a levitated gyroscope. Commun. Phys., 6, 238 (2023).
. Physiological and transcriptome profiling of Chlorella sorokiniana: A study on azo dye wastewater decolorization. Journal of Hazardous Materials, 460, 132450 (2023).
. Rapid Identification of Pathogens Causing Bloodstream Infections by Raman Spectroscopy and Raman Tweezers. Microbiology Spectrum, 11, e00028-23 (2023).
. Rapid identification of pathogens in blood serum via Raman tweezers in combination with advanced processing methods. Biomed. Opt. Express, 14, 6410–6421 (2023).
. . All-optical sub-Kelvin sympathetic cooling of a levitated microsphere in vacuum. Optica, 9, 1000–1002 (2022).
. Raman spectroscopy—a tool for rapid differentiation among microbes causing urinary tract infections. Analytica Chimica Acta, 1191, 339292 (2022).
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Complex colloidal structures with non-linear optical properties formed in an optical trap. Opt. Express, 28, 37700–37707 (2020).
. Optical Trapping, Optical Binding, and Rotational Dynamics of Silicon Nanowires in Counter-Propagating Beams. Nano Lett., 19, 342-352 (2019).
. Optomechanical properties of optically self-arranged colloidal waveguides. Opt. Lett., 44, 707-710 (2019).
. Perspective on light-induced transport of particles: from optical forces to phoretic motion. Adv. Opt. Photon., 11, 577–678 (2019).
. Spin to orbital light momentum conversion visualized by particle trajectory. Sci. Rep., 9, 4127:1-7 (2019).
. . Detection of chloroalkanes by surface-enhanced raman spectroscopy in microfluidic chips. Sensors, 18, 3212 (2018).
. Diffusing up the Hill: Dynamics and Equipartition in Highly Unstable Systems. Phys. Rev. Lett., 121, 23601 (2018).
. Enhancement of the `tractor-beam' pulling force on an optically bound structure. Light: Sci. Appl., 7, 17135 (2018).
. Microfluidic Cultivation and Laser Tweezers Raman Spectroscopy of E-coli under Antibiotic Stress. Sensors, 18, 1623 (2018).
. Transverse spin forces and non-equilibrium particle dynamics in a circularly polarized vacuum optical trap. Nature Commun., 9, 5453 (2018).
. Accuracy and Mechanistic Details of Optical Printing of Single Au and Ag Nanoparticles. ACS nano, 11, 9678–9688 (2017).
. Differentiation between Staphylococcus aureus and Staphylococcus epidermidis strains using Raman spectroscopy. Future Microbiology, 12, 10 (2017).
. Dynamics of an optically bound structure made of particles of unequal sizes. Opt. Lett., 42, 1436-1439 (2017).
. Effects of Infrared Optical Trapping on Saccharomyces cerevisiae in a Microfluidic System. Sensors, 17, 2640 (2017).
. Morphological and Production Changes in Planktonic and Biofilm Cells Monitored Using SEM and Raman Spectroscopy. Microscopy and Microanalysis, 23, S1 (2017).
. Omnidirectional Transport in Fully Reconfigurable Two Dimensional Optical Ratchets. Phys. Rev. Lett., 118, 138002 (2017).
. . . Thermal tuning of spectral emission from optically trapped liquid-crystal droplet resonators. J. Opt. Soc. Am. B, 34, 1855-1864 (2017).
. . Direct measurement of the temperature profile close to an optically trapped absorbing particle. Opt. Lett., 41, 870-873 (2016).
. Holographic Raman tweezers controlled by Multimodal Natural User Interface. J. Opt., 18, 015602:1-9 (2016).
Morphological and Production Changes in Stressed Red Yeasts Monitored Using SEM and Raman Spectroscopy. Microscopy and Microanalysis, 22, S3 (2016).
. Noise-to-signal transition of a Brownian particle in the cubic potential: I. general theory. Journal of Optics, 18, 065401 (2016).
. Noise-to-signal transition of a Brownian particle in the cubic potential: II. optical trapping geometry. Journal of Optics, 18, 065402 (2016).
. Quantitative Raman Spectroscopy Analysis of Polyhydroxyalkanoates Produced by Cupriavidus necator H16. Sensors, 16, 1808 (2016).
. Synchronization of colloidal rotors through angular optical binding. Phys. Rev. A, 93, 023842 (2016).
. Thermally-induced passage and current of particles in highly unstable optical potential. Phys. Rev.E, 16, 042108 (2016).
. Binding of a pair of Au nanoparticles in a wide Gaussian standing wave. Opt. Rev., 22, 157-161 (2015).
. Complex rotational dynamics of multiple spheroidal particles in a circularly polarized, dual beam trap. Opt. Express, 23, 7273-7287 (2015).
. Cryo-SEM and Raman Spectroscopy Study of the Involvement of Polyhydroxyalkanoates in Stress Response of Bacteria. Microscopy and Microanalysis, 21, 183-184 (2015).
. Identification of individual biofilm-forming bacterial cells using Raman tweezers. J. Biomed. Opt., 20, (2015).
. Influence of Culture Media on Microbial Fingerprints Using Raman Spectroscopy. Sensors, 15, 29635-29647 (2015).
. Monitoring of Multilayered Bacterial Biofilm Morphology by Cryo-SEM for Raman Spectroscopy Measurements. Microscopy and Microanalysis, 21, 187-188 (2015).
. Non-spherical gold nanoparticles trapped in optical tweezers: shape matters. Opt. Express, 23, 8179-8189 (2015).
. Optical trapping in secondary maxima of focused laser beam. J. Quant. Spectrosc. Radiat. Transf., 162, 114 - 121 (2015).
. SEM and Raman Spectroscopy Applied to Biomass Analysis for Application in the Field of Biofuels and Food Industry. Microscopy and Microanalysis, 21, 1775-1776 (2015).
. Three-Dimensional Optical Trapping of a Plasmonic Nanoparticle using Low Numerical Aperture Optical Tweezers. Sci. Rep., 5, 8106 (2015).
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