IEEE Organizations related to Diamagnetic Materials

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No organizations are currently tagged "Diamagnetic Materials"



Conferences related to Diamagnetic Materials

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2020 IEEE International Symposium on Antennas and Propagation and North American Radio Science Meeting

The joint meeting is intended to provide an international forum for the exchange of information on state of the art research in the area of antennas and propagation, electromagnetic engineering and radio science


2020 22nd European Conference on Power Electronics and Applications (EPE'20 ECCE Europe)

Energy conversion and conditioning technologies, power electronics, adjustable speed drives and their applications, power electronics for smarter grid, energy efficiency,technologies for sustainable energy systems, converters and power supplies


2020 IEEE International Magnetic Conference (INTERMAG)

INTERMAG is the premier conference on all aspects of applied magnetism and provides a range of oral and poster presentations, invited talks and symposia, a tutorial session, and exhibits reviewing the latest developments in magnetism.


2019 13th European Conference on Antennas and Propagation (EuCAP)

The conference provides an overview of the state of the art developments and innovations in Antennas, Propagation, and Measurements, highlighting the latest requirements for future applications.


2019 20th International Conference on Solid-State Sensors, Actuators and Microsystems & Eurosensors XXXIII (TRANSDUCERS & EUROSENSORS XXXIII)

The world's premiere conference in MEMS sensors, actuators and integrated micro and nano systems welcomes you to attend this four-day event showcasing major technological, scientific and commercial breakthroughs in mechanical, optical, chemical and biological devices and systems using micro and nanotechnology.The major areas of activity in the development of Transducers solicited and expected at this conference include but are not limited to: Bio, Medical, Chemical, and Micro Total Analysis Systems Fabrication and Packaging Mechanical and Physical Sensors Materials and Characterization Design, Simulation and Theory Actuators Optical MEMS RF MEMS Nanotechnology Energy and Power


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Periodicals related to Diamagnetic Materials

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No periodicals are currently tagged "Diamagnetic Materials"


Most published Xplore authors for Diamagnetic Materials

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Xplore Articles related to Diamagnetic Materials

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Optically driven method for magnetically levitating a diamagnetic material using the photothermal effect

2010 International Symposium on Optomechatronic Technologies, 2010

Optically driven actuators do not require contact and thus can be used to generate movement remotely. In this paper, we propose a new method for optically driving a magnetic levitation system that consists of a diamagnetic material as the moving object, a neodymium magnet, and a temperature-sensitive ferrite for varying the potential energy of the diamagnetic object. The diamagnetic object ...


Educational model for diamagnetic material applications in micro and nano levitation devices

2017 16th International Conference on Information Technology Based Higher Education and Training (ITHET), 2017

Not very applied in today materials engineering, diamagnetic levitation offers some distinct features for micromagnetics and many other technical domains. It can provide frictionless bearings for micromechanical sensors applied to measure some types of weak forces, resulting from various physical effects, especially in nanotechnologies. Applied in the situation of these micro machines, diamagnetic levitation can naturally eliminate any wear and ...


A Short-Range Inertial Sensor Exploiting Magnetic Levitation and an Inductive Readout Strategy

IEEE Transactions on Instrumentation and Measurement, 2018

This paper demonstrates a methodology, exploiting a low-cost levitation architecture, for the implementation of a highly sensitive inertial sensor to measure displacement and acceleration. The system uses a graphite tile suspended over four NdFeB magnets and a differential inductive readout strategy to implement the sensing mechanism. The main claims of the developed sensor are related to the levitation mechanism, which ...



Educational Resources on Diamagnetic Materials

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IEEE.tv Videos

EMBC 2011-Keynote-From Nature and Back Again ... Giving New Life to Materials for Energy, Electronics, Medicine and the Environment - Angela Belcher, PhD
Spatial-Spectral Materials for High Performance Optical Processing - IEEE Rebooting Computing 2017
IMS 2012 Microapps - Bonding Materials used in Multilayer Microwave PCB Applications
Wanda Reder: Educational Materials for Expert and Non-Expert — IEEE Power and Energy Society’s “Plain Talk” — Studio Tech Talks: Sections Congress 2017
Unconventional Superconductivity: From History to Mystery
Nanotechnology, we are already there: APEC 2013 KeyTalk with Dr. Terry Lowe
Multi-Function VCO Chip for Materials Sensing and More - Jens Reinstaedt - RFIC Showcase 2018
Unique Fixtures for Characterizing Electromagnetic Properties of Materials at THz Frequencies: MicroApps 2015 - Keysight Technologies
Care Innovations: Green Engineering (com legendas em portugues)
Magnetic Materials and Magnetic Devices - Josep Fontcuberta: IEEE Magnetics Distinguished Lecture 2016
MicroApps: Fast, Accurate and Nondestructive Solutions of Materials Test up to 1.1 THz (Agilent Technologies)
IRDS: Metrology - George Orji at INC 2019
2013 IEEE Corporate Innovation Award
Materials Challenges for Next-Generation, High-Density Magnetic Recording - Kazuhiro Hono: IEEE Magnetics Distinguished Lecture 2016
35 Years of Magnetic Heterostructures
IMS MicroApp: Advances in High Frequency Printed Circuit Board (PCB)
Educational Resources for Humanitarian Activities - Michael Lightner - Brief Sessions: Sections Congress 2017
Advanced Simulation of Nanodevices - Luca Selmi at INC 2019
30 Years to High Temperature Superconductivity (HTS): Status and Perspectives
EMBC 2011-Speaker Highlights-Mary Tolikas, PhD, MBA

IEEE-USA E-Books

  • Optically driven method for magnetically levitating a diamagnetic material using the photothermal effect

    Optically driven actuators do not require contact and thus can be used to generate movement remotely. In this paper, we propose a new method for optically driving a magnetic levitation system that consists of a diamagnetic material as the moving object, a neodymium magnet, and a temperature-sensitive ferrite for varying the potential energy of the diamagnetic object. The diamagnetic object is levitated by the magnetic force between it and the neodymium magnet. Laser irradiation of the temperature-sensitive ferrite reduces its magnetic susceptibility due to the photothermal effect. In this study, the conditions for levitation are derived using a numerical approach. The results reveal that movement can be controlled in a three-dimensional region.

  • Educational model for diamagnetic material applications in micro and nano levitation devices

    Not very applied in today materials engineering, diamagnetic levitation offers some distinct features for micromagnetics and many other technical domains. It can provide frictionless bearings for micromechanical sensors applied to measure some types of weak forces, resulting from various physical effects, especially in nanotechnologies. Applied in the situation of these micro machines, diamagnetic levitation can naturally eliminate any wear and friction, which are two main factors affecting reliability and control of micro drives. The most important drawback of diamagnetic levitation is a fairly weak force offered per unit mass, which limits its use as a classic sole bearing support in case of systems having relatively low effective accelerations. This paper proves that the static magnetic field sources can bring small diamagnetic bodies in a free levitation. This demonstration and theoretical method involved, is used for material laboratories with students, in order to be more familiarized with this state of the art applications. Furthermore, when considering scale reduction for magnetism, it appears that diamagnetism is more efficient when the dimensions of the system are decreasing, in other words, what is difficult and complex to perform at macroscopic scale may become effortless and simple in the micro-size world This is another issue useful for future material specialists (now students).

  • A Short-Range Inertial Sensor Exploiting Magnetic Levitation and an Inductive Readout Strategy

    This paper demonstrates a methodology, exploiting a low-cost levitation architecture, for the implementation of a highly sensitive inertial sensor to measure displacement and acceleration. The system uses a graphite tile suspended over four NdFeB magnets and a differential inductive readout strategy to implement the sensing mechanism. The main claims of the developed sensor are related to the levitation mechanism, which leads to a suitable responsivity and resolution for the device. Moreover, the passive inductive sensing strategy allows for static displacement measurement, which is a unique feature in the field of levitating systems. The mechanical decoupling between the graphite sensing element and the inductive readout electronics is another interesting characteristic of the device enhancing the device reliability and life time, since the low-cost sensing element (the graphite tile) can be easily replaced if damaged. It is also worth considering that the inductive sensing strategy has been realized by a low-cost technology. The device has been characterized as a short-range accelerometer and displacement sensor. The responsivity and the resolution in these two operating modes are (1.17 V/m/s2, 1 × 10-4m/s2) and (0.61 V/mm, 1.9 × 10-4mm), respectively.



Standards related to Diamagnetic Materials

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Jobs related to Diamagnetic Materials

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