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Related papers: Optical Tweezers: A Comprehensive Tutorial from Ca…

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Optical tweezers are tools made of light that enable contactless pushing, trapping, and manipulation of objects ranging from atoms to space light sails. Since the pioneering work by Arthur Ashkin in the 1970s, optical tweezers have evolved…

Optics · Physics 2022-06-29 Giovanni Volpe , Onofrio M. Maragò , Halina Rubinzstein-Dunlop , Giuseppe Pesce , Alexander B. Stilgoe , Giorgio Volpe , Georgiy Tkachenko , Viet Giang Truong , Síle Nic Chormaic , Fatemeh Kalantarifard , Parviz Elahi , Mikael Käll , Agnese Callegari , Manuel I. Marqués , Antonio A. R. Neves , Wendel L. Moreira , Adriana Fontes , Carlos L. Cesar , Rosalba Saija , Abir Saidi , Paul Beck , Jörg S. Eismann , Peter Banzer , Thales F. D. Fernandes , Francesco Pedaci , Warwick P Bowen , Rahul Vaippully , Muruga Lokesh , Basudev Roy , Gregor Thalhammer , Monika Ritsch-Marte , Laura Pérez García , Alejandro V. Arzola , Isaac Pérez Castillo , Aykut Argun , Till M. Muenker , Bart E. Vos , Timo Betz , Ilaria Cristiani , Paolo Minzioni , Peter J. Reece , Fan Wang , David McGloin , Justus C. Ndukaife , Romain Quidant , Reece P. Roberts , Cyril Laplane , Thomas Volz , Reuven Gordon , Dag Hanstorp , Javier Tello Marmolejo , Graham D. Bruce , Kishan Dholakia , Tongcang Li , Oto Brzobohatý , Stephen H. Simpson , Pavel Zemánek , Felix Ritort , Yael Roichman , Valeriia Bobkova , Raphael Wittkowski , Cornelia Denz , G. V. Pavan Kumar , Antonino Foti , Maria Grazia Donato , Pietro G. Gucciardi , L. Gardini , G. Bianchi , A. Kashchuk , M. Capitanio , Lynn Paterson , P. H. Jones , Kirstine Berg-Sørensen , Younes F. Barooji , Lene B. Oddershede , Pegah Pouladian , Daryl Preece , Caroline Beck Adiels , Anna Chiara De Luca , A. Magazzù , D. Bronte Ciriza , M. A. Iatì , Grover A. Swartzlander

Since the pioneering work of Arthur Ashkin, optical tweezers have become an indispensable tool for contactless manipulation of micro- and nanoparticles. Nowadays optical tweezers are employed in a myriad of applications demonstrating the…

Optical tweezers are highly versatile laser traps for neutral microparticles, with fundamental applications in physics and in single molecule cell biology. Force measurements are performed by converting the stiffness response to…

Optics · Physics 2014-06-30 R S Dutra , N B Viana , P A Maia Neto , H M Nussenzveig

It is common to introduce optical tweezers using either geometric optics for large particles or the Rayleigh approximation for very small particles. These approaches are successful at conveying the key ideas behind optical tweezers in their…

Arthur Ashkin was awarded the 2018 Nobel prize in physics for the invention of optical tweezers. Since the first publication in 1986 Optical Tweezers have been used as a tool to measure forces and rheological properties of microscopic…

Optics · Physics 2019-06-25 Antonio Alvaro Ranha Neves , Carlos Lenz Cesar

Optical tweezers exploit light--matter interactions to trap particles ranging from single atoms to micrometer-sized eukaryotic cells. For this reason, optical tweezers are a ubiquitous tool in physics, biology, and nanotechnology. Recently,…

Emulsions are ubiquitous in everyday life and find applications in various industries. Optical tweezers (OTs) have emerged as the preferred method for studying emulsion dynamics. In this review, we first introduce the theory of optical…

Since its invention by Arthur Ashkin and colleagues at Bell Labs in the 1970s, optical micromanipulation, also known as optical tweezers or laser tweezers, has evolved remarkably to become one of the most convenient and versatile tools for…

Soft Condensed Matter · Physics 2026-02-05 Sanatan Halder , Debojit Chanda , Dibyendu Mondal , Sandip Kundu , Manas Khan

Optical tweezers is a very well-established technique that has developed into a standard tool for trapping and manipulating micron and submicron particles with great success in the last decades. Although the nature of light enforces…

Optics · Physics 2020-01-22 Theodoros D. Bouloumis , Sile Nic Chormaic

Optical tweezers (OT) have become an essential technique in several fields of physics, chemistry, and biology as precise micromanipulation tools and microscopic force transducers. Quantitative measurements require the accurate calibration…

Optical tweezers are powerful tools based on focused laser beams. They are able to trap, manipulate and investigate a wide range of microscopic and nanoscopic particles in different media, such as liquids, air, and vacuum. Key applications…

Multi-step assembly of individual protein building blocks is key to the formation of essential higher-order structures inside and outside of cells. Optical tweezers is a technique well suited to investigate the mechanics and dynamics of…

Biological Physics · Physics 2020-08-18 Kathrin Lehmann , Marjan Shayegan , Gerhard A. Blab , Nancy R. Forde

Computational modelling has made many useful contributions to the field of optical tweezers. One aspect in which it can be applied is the simulation of the dynamics of particles in optical tweezers. This can be useful for systems with many…

Optical tweezers have found widespread application in many fields, from physics to biology. Here, we explain in detail how optical forces and torques can be described within the geometrical optics approximation and we show that this…

Optics · Physics 2015-06-18 Agnese Callegari , Mite Mijalkov , A. Burak Gököz , Giovanni Volpe

Since their invention in the 1980s [1], optical tweezers have found a wide range of applications, from biophotonics and mechanobiology to microscopy and optomechanics [2, 3, 4, 5]. Simulations of the motion of microscopic particles held by…

Current optical manipulation techniques rely on carefully engineered setups and samples. Although similar conditions are routinely met in research laboratories, it is still a challenge to manipulate microparticles when the environment is…

Microrheology is a branch of rheology having the same principles as conventional bulk rheology, but working on micron length scales and micro-litre volumes. Optical tweezers have been successfully used with Newtonian fluids for rheological…

Optical tweezers equipped with position detection allow for application of piconewton-scale forces and high-temporal-resolution measurements of nanometer-scale motion. While typically used for trapping microscopic objects, the optical…

Optically levitated dielectric nanoparticles have become valuable tools for precision sensing and quantum optomechanical experiments. To predict the dynamic properties of a particle trapped in an optical tweezer with high fidelity, a tool…

Optics · Physics 2024-11-20 Moosung Lee , Tobias Hanke , Sara Launer , Sungkun Hong

Fully internal and motional state controlled and individually manipulable polar molecules are desirable for many quantum science applications leveraging the rich state space and intrinsic interactions of molecules. While prior efforts at…

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