Optical Manipulation and Its Applications
Events
Optical Manipulation and Its Applications
12 April 2021 – 16 April 2021 OSA Virtual Event - Pacific Daylight Time (UTC - 07:00)
This meeting covers the whole range of optical manipulation technologies currently being developed for studies in biophysics, single molecule, single cell and tissue level analysis, optical manipulation of chemical processes in organisms, lab-on-a-chip development, optomechanical cooling, environmental monitoring and theoretical underpinnings. Technologies to be considered include optical tweezers and associated techniques, photo activated materials, optogenetics, light-activated drugs and probes, and microfluidics. In this way, we will try and capture synergies between different optical manipulation technologies with a view to encouraging discussion between different user groups and the development of new hybrid techniques.
Essential Links
Biophotonics Congress: Optics in the Life Sciences
Topics
1. Optical Manipulation in Biophysics and Biomedicine
- Single molecule biophysics
- Cellular mechanics and mechanotransduction
- Cellular adhesion
- Laser cellular surgery and photoporation
- Light activated drugs and probes
- Cell stretching
- Optogenetics
- Optical biomodulation
2. Optical Manipulation Fundamentals
- Holographic optical tweezers and beam shaping, adaptive optics techniques
- Particle dynamics
- Opto-mechanical cooling
- Microrheology
- High force optical tweezers
- Photophoresis
- Optical trap modelling and theoretical underpinnings
- Nanoparticle manipulation
- Plasmonic manipulation
- Integrated and near-field optical trapping
3. Optical Manipulation Applications
- Non-equilibrium statistical mechanics
- Nanoscale & quantum sensing
- Environmental sensing and aerosol analysis
- Optofluidics/microfluidics
- Integration with spectroscopic techniques
- Photo activated molecules and materials
4. Alternative Manipulation Techniques
- Magnetic tweezers
- Electrical manipulation: Electrodynamic balance, dielectrophoresis, etc
- Acoustic manipulation and trapping
- Microfluidic manipulation
- Optoelectronic Tweezers
- AFM applied to techniques studied by optical manipulation
Speakers
- Theresa Busch, University of Pennsylvania
- Edward Delikatny, Washington State University, United States
Title to be Announced - Nicholas Durr, Johns Hopkins University, United States
- Stanislav Emelianov, Georgia Institute of Technology, United States
Laser Activated Contrast Nanoagents for Background-free Photoacoustic and Ultrasound Imaging - Sergey Ermilov, PhotoSound Technologies, Inc., United States
- Summer Gibbs, Oregon Health and Science University, United States
Title to Be Announced - Susanne Kossatz, Technische Universität Munchen, Germany
- Frederic Leblond, Polytechnique Montréal, Canada
- Christie Lin, OnLume Surgical, United States
Applications of a Novel Translational Fluorescence-guided Surgery Platform - Jonathan Lovell, SUNY Buffalo, United States
- Guolan Lu, Stanford University, United States
Title to Be Announced - Tommaso Patriarchi, Universitat Zurich
- Brian Pogue, Dartmouth College, United States
Cherenkov Light Molecular Imaging and Therapy Enhancement from X-rays - Milind Rajadhyaksha, Memorial Sloan Kettering Cancer Center, United States
- Daniel Razansky, Helmholtz Zentrum München GmbH, Switzerland
Title to Be Announced - Kimberley Samkoe, Dartmouth College, United States
Title to Be Announced - Melissa Skala, University of Wisconsin-Madison, United States
Label-free Imaging of Stem Cell-derived Cardiomyocytes - Bryan Spring, Northeastern University, United States
Title to Be Announced - Kenneth Tichauer, Illinois Institute of Technology, United States
Title to Be Announced - Sergei Vinogradov, University of Pennsylvania, United States
Title to Be Announced - Lu Wei, California Institute of Technology, United States
High-resolution Chemical Imaging of Cells and Tissues - Max Witjes, University Medical Center Groningen, Netherlands
Fluorescence Guided Surgery in Head & Neck Cancer for Tumor Detection and Margin Assessment Using Cetuximab-800CW
Committee
- Frank Cichos, Univ Leipzig, Germany, Chair
- Lene Oddershede, The Niels Bohr Institute, Denmark, Chair
- Valentina Emiliani, Institut de la Vision, France, Program Chair
- Onofrio Maragò, Consiglio Nazionale delle Ricerche, Italy, Program Chair
- Sile Nic Chormaic, Okinawa Inst of Science & Technology, Japan, Program Chair
- Nicolas Pégard, U. of North Carolina at Chapel Hill, United States, Program Chair
Plenary Session
Sandrine Lévêque-Fort
Paris Saclay University
Alternative Strategies for 3D Single Molecule Localization Microscopy
I will present our recent work on 3D imaging in Single Molecule Localization Microscopy, where intrinsic properties of fluorescence emission can be directly used to enhance the resolution.
About the Speaker
Sandrine Lévêque-Fort is a CNRS Researcher Director at the Institute of molecular science (ISMO) in Paris Saclay University. She obtained her PhD on the development of a new acousto-optic imaging approach for imaging through scattering media in the Optical Lab of ESPCI in Paris. She then became a postdoctoral fellow in the physics department of Imperial College, where she started to develop time resolved fluorescence microscopy but also structured illumination strategy. She joined the CNRS in 2001 to develop different strategies to improve spatial and temporal resolution for fluorescence microscopy, by implementing new configurations or used plasmonics substrates to engineered fluorescence emission. Since 2009, she has proposed various approaches to take advantage of supercritical angle fluorescence (SAF) emission as an alternative intrinsic tool given by the fluorophore itself to access axial information. In wide field microscopy this allows a dual depth imaging without any photon loss while preserving ideal sectioning for membrane imaging. In combination with super-resolution microscopy techniques (DONALD/DAISY), these new approaches permit to reveal quantitatively the 3D cellular nanoarchitecture. Since 2016, she has combined structured excitation with single molecule localization. By introducing a time signature within the localization process, this technique called ModLoc permits to retrieve the fluorophores’ information thanks to the phase of their modulated emission and benefits of an enhanced and uniform localization precision.
Dan Oron
Weizmann Institute of Science
Quantum Enhanced Superresolution Confocal Microscopy
We show how the resolution of a standard confocal can be increased fourfold with a twofold axial resolution increase by harnessing the quantum phenomenon of fluorescence antibunching and by its classical analog of fluorescence intermittency.
About the Speaker
Dan Oron earned a B.Sc. in mathematics and physics from the Hebrew university in 1994. He earned his M.Sc. degree in physics from Ben-Gurion University of the Negev in 1998 and received his Ph.D., also in physics, from the Weizmann Institute of Science in 2005, under the guidance of Prof. Yaron Silberberg. After conducting postgraduate research with Prof. Uri Banin at the Hebrew University for two years, he joined the staff of the Weizmann Institute in April 2007. He is currently a professor at the department of Molecular Chemistry and Materials Science at the Weizmann institute. His main research interests are at the interface between light and the nanoscale, studying both the interaction of light with nanostructured materials (mostly inorganic and hybrid semiconductor nanocrystals), optical superresolution methods harnessing both quantum and classical fluctuations in light emission and the optics of biological nanostructured materials.
R. Clay Reid
The Allen Institute for Brain Science
Petascale Microscopy for Brain Mapping: Electron and Light Microscopic Approaches to Connectomics
The reconstruction of neural pathways and connections (connectomics) requires high-resolution microscopy over large volumes, thus requiring extremely large data sets. I’ll discuss approaches, from data collection through segmentation, for analyzing neural circuits at the petascale.
About the Speaker
Clay Reid is Senior Investigator at the Allen Institute for Brain Science, where he started a department in 2012 to study how information is encoded and processed in neural networks of the visual system. Prior to joining the Allen Institute, Reid was Professor of Neurobiology at Harvard Medical School. Throughout his career, he has used a combination of imaging and anatomical approaches to investigate how the structure of neural connections relates to the function of cortical circuits. He has helped to pioneer new methods for recording increasingly large ensembles of neurons to study sensory processing. In parallel, he has developed methods to analyze connections in these ensembles using large-scale anatomical reconstructions (connectomics) with serial-section electron microscopy.
Special Events
Meet the Plenary Speaker Series
The Biophotonics Congress: Optics in the Life Sciences will feature 3 Plenary Speakers. Following technical talks, join your colleagues for a meet-and-greet and discussion with our Congress Plenary Speakers.
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Tuesday, 13 April: Dan Oron, Weizmann Institute of Science
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Wednesday, 14 April: Sandrine Lévêque-Fort, Paris Saclay University
- Thursday, 15 April: R. Clay Reid, The Allen Institute for Brain Science
Monday, 12 April
Successfully Navigate an OSA Virtual Meeting
The post-COVID world has new challenges in regards to virtual meetings – are you prepared? Listen to Isaiah Hankel, Cheeky Scientist, help guide you through the different platforms OSA uses and how you can effectively network and get the most out of your meeting experience.
Tuesday, 13 April
Optical Trapping and Manipulation: Careers and Networking Event
Poster Session I
Wednesday, 14 April
Meet the OSA Journals Editors
The OSA Publishing journal Editors welcome your questions, ideas, and concerns. Join this online event to learn more about journal acceptance criteria, responding to review requests, addressing reviewer feedback, and other topics of interest. All are welcome!
Poster Session II
Thursday, 15 April
