Skip to main navigation
Skip to search
Skip to main content
The Hebrew University of Jerusalem Home
Approve / Request updates on publications
Link opens in a new tab
Search content at The Hebrew University of Jerusalem
Home
Profiles
Research units
Research output
Prizes
Local light-induced magnetization using nanodots and chiral molecules
Oren Ben Dor
, Noam Morali
,
Shira Yochelis
, Lech Tomasz Baczewski
,
Yossi Paltiel
*
*
Corresponding author for this work
The Institute of Applied Physics
Research output
:
Contribution to journal
›
Article
›
peer-review
103
Scopus citations
Overview
Fingerprint
Fingerprint
Dive into the research topics of 'Local light-induced magnetization using nanodots and chiral molecules'. Together they form a unique fingerprint.
Sort by
Weight
Alphabetically
Keyphrases
Ambient Temperature
20%
Anomalous Spin Hall Effect
20%
Atomic Force Microscopy
20%
Charge Transfer
20%
Chiral Layer
20%
Chiral Molecules
100%
Chiral Nanocrystals
20%
Configuration Force
20%
Effective Approach
20%
Electron Transport
20%
Electronic Devices
100%
Ferromagnetic Layer
20%
Hall Sensor
20%
High Density
20%
Increased Demand
20%
Induced Magnetization
100%
Integrated Circuits
20%
Light-induced
100%
Local Magnetization
20%
Local Spin
20%
Logic Devices
20%
Low Power Consumption
20%
Low Temperature
20%
Magnetization
20%
Miniaturization
20%
Nanocrystals
20%
Nanodots
100%
Nanostructures
20%
Ni Layer
20%
Optically Controlled
20%
Permanent Charge
20%
Perpendicular Magnetization
20%
Power Consumption
20%
Sensor Configuration
20%
Spin Electronics
80%
Spin Selectivity
20%
Spin Torque
20%
Engineering
Atomic Force Microscopy
100%
Effective Approach
100%
Electric Power Utilization
100%
Increasing Demand
100%
Integrated Circuit
100%
Low Power Consumption
100%
Low-Temperature
100%
Nanodots
100%
Nanomaterial
100%
Spin Hall effect
100%
Material Science
Atomic Force Microscopy
100%
Density
100%
Electron Transfer
100%
Electronic Circuit
100%
Nanodots
100%
Nanostructure
100%
Physics
Atomic Force Microscopy
25%
Integrated Circuit
25%
Nanomaterial
25%
Photoelectric Emission
25%
Quantum Dot
100%
Selectivity
25%
Spintronics
100%