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January 12, 2015
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Date:11ThursdayMay 2023Academic Events
Scientific Council Meeting
More information Time 14:00 - 16:00Location The David Lopatie Conference CentreContact -
Date:14SundayMay 202318ThursdayMay 2023Conference
The 9th International Workshop on Electrostatic Storage Devices
More information Time 08:00 - 08:00Chairperson Oded HeberHomepage -
Date:14SundayMay 2023Lecture
Projecting the impacts of climate change on human society
More information Time 11:00 - 12:00Location Sussman Family Building for Environmental SciencesLecturer Ram Fishman
Tel Aviv UniversityOrganizer Department of Earth and Planetary SciencesContact -
Date:14SundayMay 2023Lecture
Immunology and Regenerative Biology Colloquium
More information Time 11:00 - 12:00Title The behavior and influence of neutrophil granulocytes under physiological and pathological conditionsLocation Max and Lillian Candiotty BuildingLecturer Prof. Matthias Gunzer
Leibniz- Institut für Analytische Wissenschaften - ISAS - e.V, Dortmund, Germany & Institute for Experimental Immunology and Imaging, University Hospital, University Duisburg- Essen, Essen, GermanyOrganizer Department of Immunology and Regenerative BiologyContact -
Date:14SundayMay 2023Lecture
Next-generation transcriptomics-based precision oncology
More information Time 14:00 - 15:00Location Max and Lillian Candiotty BuildingLecturer Eytan Ruppin, CDSL, NCI, NIH
Center for Cancer Research National Cancer Institute Bethesda, Maryland, USAOrganizer Department of Immunology and Regenerative BiologyContact -
Date:15MondayMay 2023Lecture
Systems Biology Seminar 2022-2023
More information Time 10:00 - 11:00Location Arthur and Rochelle Belfer Building for Biomedical ResearchOrganizer Azrieli Institute for Systems BiologyContact -
Date:15MondayMay 2023Lecture
Features and Objects as Perceptual Attractors: Theory, Paradigm, and Results from The Rat’s Whisker System
More information Time 11:00 - 12:15Location Arthur and Rochelle Belfer Building for Biomedical ResearchLecturer Guy Nelinger, Student Seminar - PhD Thesis Defense
Prof. Ehud Ahissar LabOrganizer Department of Brain SciencesContact Abstract Show full text abstract about Perceivers experience the world around them as organized, wi...» Perceivers experience the world around them as organized, with sensory impressions clearly separated into entities. What makes a perceptual object, and what framework relates it to its composing features? A key insight is that under natural conditions, feature and object information is acquired actively, via sensor movements. Motor and sensory variables affect one another reciprocally, forming a closed-loop system. I therefore hypothesize that percepts signifying an object emerge when the motor-sensory loop’s dynamics converge towards a stable attractor. Using snout and whisker tracking data from freely-moving behaving rats, I outline such an attractor for object detection. I demonstrate that whisker-object contact elicits robust signals on a motor-sensory phase-plane, comprised of the derivatives of whisker base-angle and base-curvature. Over consecutive contact epochs, trajectories on the phase-plane converge to a specific area. The area is characterized by a basin of attraction during contact, more so than in free-air whisking. Differences in head-movement behavior are associated with proximity to the attractor, suggesting that the animal makes use of this proposed coding-scheme. Finally, to build upon these insights, I present a novel paradigm for the study of volitional perceptual exploration, in both rewarded and unrewarded contexts. It supports high-resolution study of motor-sensory development starting at birth, throughout task-learning and until mastery. Taken together, these results highlight a novel framework for the study of the perception of features and objects as motor-sensory attractors.
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Date:15MondayMay 2023Lecture
KENDREW LECTURE: Computational Structural Biology in the Era of Deep Learning
More information Time 11:00 - 12:00Location Gerhard M.J. Schmidt Lecture HallLecturer Prof. John Moult
Institute of Bioscience and Biotechnology Research Department of Cell Biology and Molecular Genetics University of MarylandOrganizer Department of Chemical and Structural BiologyContact -
Date:15MondayMay 2023Lecture
Foundations of Computer Science Seminar
More information Time 11:15 - 12:30Title Bounded Weighted Edit DistanceLocation Jacob Ziskind BuildingLecturer Tomasz Kociumaka
Max Planck Institute for Informatics, GermanyOrganizer Department of Computer Science and Applied MathematicsContact -
Date:16TuesdayMay 2023Lecture
The application of ecological multilayer networks to microbial systems
More information Time All dayLocation Nella and Leon Benoziyo Building for Biological SciencesLecturer Dr. Shai Pilosof
Department of Life Sciences, Ben Gurion University of the NegevOrganizer Department of Plant and Environmental SciencesContact -
Date:16TuesdayMay 2023Lecture
“ Spatiotemporal considerations of DNA damage and repair in the biogenesis of gene amplification in cancer”
More information Time 10:00 - 11:00Location Nella and Leon Benoziyo Building for Biological SciencesLecturer Yifat Bar Or Snarski
Dept. of Biomolecular Sciences - WISOrganizer Department of Biomolecular SciencesContact -
Date:16TuesdayMay 2023Lecture
Special Guest Seminar
More information Time 15:00 - 16:00Location Arthur and Rochelle Belfer Building for Biomedical ResearchLecturer Prof. Alexander Meissner & Prof. Paul Tesar Organizer Department of Molecular GeneticsContact -
Date:16TuesdayMay 2023Lecture
Special Guest Seminar
More information Time 15:00 - 15:00Location Arthur and Rochelle Belfer Building for Biomedical ResearchLecturer Prof. Alexander Meissner & Prof. Paul Tesar Organizer Department of Molecular GeneticsContact -
Date:17WednesdayMay 2023Lecture
Factors determining the early steps in the disease initiation of myeloproliferative neoplasms by the JAK2-mutated hematopoietic stem cell
More information Time 10:00 - 11:00Location Ullmann Building of Life SciencesLecturer Prof. Dr. Radek C. Skoda
Department of Biomedicine, University of Basel, SwitzerlandOrganizer Department of Molecular Cell BiologyContact -
Date:17WednesdayMay 2023Lecture
CALR mutated myeloproliferative neoplasms: pathogenesis and targeted therapies
More information Time 11:00 - 12:00Location Ullmann Building of Life SciencesLecturer Assistant-Prof Robert Kralovics, Ph.D
Department of Laboratory Medicine, Medical University of Vienna, AustriaOrganizer Department of Molecular Cell BiologyContact -
Date:18ThursdayMay 2023Lecture
Non-invasive Methods for Extracting Microstructural Information from Human Tissues: Implementation in a Clinical MRI Scanner
More information Time 09:30 - 10:30Location Gerhard M.J. Schmidt Lecture HallLecturer Ana Naamat
Medical Physics Department, Bariloche Atomic CenterOrganizer Clore Institute for High-Field Magnetic Resonance Imaging and SpectroscopyContact Abstract Show full text abstract about Extracting quantitative information about tissue microstruct...» Extracting quantitative information about tissue microstructure using non-invasive methods is an exceptional challenge in understanding disease mechanisms and enabling early diagnosis of pathologies. Magnetic Resonance Imaging (MRI) is a promising and widely used technique to achieve this goal, but it still provides low resolution to reveal details of the microstructure. Recently, we have developed methods to produce images with quantitative information about the microstructure based on selective probing of spin dephasing induced by molecular diffusion restriction in cavities of the tissue microstructure [1-3]. The feasibility of the theoretical method has been demonstrated so far by first-principles experiments and simulations on typical size distributions of white matter in the mouse brain [3]. As a next step towards practical implementation, we have implemented this method in clinical scanners [4]. In this work, I present the challenges and preliminary results of this implementation in both phantoms and human volunteers. These results open up a new avenue for MRI to advance in extracting quantitative, and fast microstructural information from images.
[1] A. Zwick, D. Sueter, G. Kurizki, G. A. Álvarez, Phys. Rev. Applied 14, 024088, (2020).
[2] M. Capiglioni, A. Zwick, P. Jiménez, G. A. Álvarez. Proc. Intl. Soc. Mag. Reson. Med. 29, 2036 (2021)
[3] M. Capiglioni, A. Zwick, P. Jiménez and G. A. Álvarez, Phys. Rev. Applied 15, 014045 (2021).
[4] E. Saidman, A. Zwick, S. Tambalo, T. Feiweier, J. Jovicich, G. A. Álvarez. Proc. Intl. Soc. Mag. Reson. Med. (2023)
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Date:18ThursdayMay 2023Colloquia
Physics Colloquium
More information Time 11:15 - 12:30Title TBA...Location Edna and K.B. Weissman Building of Physical SciencesLecturer Prof. Eva Andre Organizer Faculty of PhysicsContact Abstract Show full text abstract about TBA... ...» TBA... -
Date:18ThursdayMay 2023Lecture
Stromal and immune plasticity shape the metastatic microenvironment
More information Time 14:00 - 15:00Location Max and Lillian Candiotty BuildingLecturer Prof. Neta Erez
The Department of Pathology, Faculty of Medicine, Tel Aviv UniversityOrganizer Dwek Institute for Cancer Therapy ResearchContact -
Date:20SaturdayMay 202324WednesdayMay 2023Conference
New Frontiers in Cardiac and Vascular Biology
More information Time 08:00 - 08:00Location The David Lopatie Conference CentreChairperson Karina YanivOrganizer Department of Physics of Complex SystemsHomepage -
Date:21SundayMay 2023Lecture
“ Programmatic and Deep Learning Analysis Pipelines for 4D-STEM Materials Science Experiments”
More information Time 11:00 - 12:00Location Gerhard M.J. Schmidt Lecture HallLecturer Dr. Colin Ophus
Lawrence Berkeley National Laboratory, BerkeleyOrganizer Department of Molecular Chemistry and Materials ScienceContact Abstract Show full text abstract about Scanning transmission electron microscopy (STEM) is one of t...» Scanning transmission electron microscopy (STEM) is one of the most popular materials science methods to characterize the structure and chemistry of nanoscale samples, owing to its high resolution and many flexible operating modes. In a conventional STEM experiment, we focus the electron beam down to a probe from nanometer to sub-angstrom scale, and scan it over the sample surface while recording diffracted signals which are transmitted through the specimen. STEM can also record analytic signals such as x-rays generated by the electron beam to measure composition, or energy loss of the transmitted electrons to probe the electronic structure of samples. Conventional STEM imaging detectors experiments produce only a few intensity values at each probe position, but modern high-speed detectors allow us to measure a full 2D diffraction pattern, over a grid of 2D probe positions, forming a four dimensional (4D)-STEM dataset. These 4D-STEM datasets record information about the local phase, orientation, deformation, and other parameters, for both crystalline and amorphous materials. 4D-STEM datasets can contain millions of images and therefore require highly automated and robust software codes to extract the target properties. In this talk, I will introduce our open source py4DSTEM analysis toolkit, and show how we use these codes to perform data-intensive studies of material properties over functional length scales. I will also demonstrate some applications of modern machine learning tools, to perform measurements on electron diffraction patterns where property signals have been scrambled by multiple scattering of the electron beam.