AIP Publishing is a not-for-profit subsidiary of the American Institute of Physics (AIP). AIP Publishing’s mission is to support the charitable, scientific and educational purposes of AIP through scholarly publishing activities in the fields of the physical and related sciences on its own behalf, on behalf of the Member Societies of AIP, and on behalf of the other publishing partners to help them proactively advance their missions.
The IEEE Magnetics Society is the leading international professional organization for magnetism and related professionals throughout the world. The IEEE Magnetics Society promotes the advancement of science, technology, applications and training in magnetism. It fosters presentation and exchange of information among its members and within the global technical community, including education and training of young engineers and scientists. It seeks to nurture positive interactions between all national and regional societies acting in the field of magnetism.
Invited and contributed papers presented at the 65th Annual Conference on Magnetism and Magnetic Materials will be published in AIP Advances (aipadvances.aip.org). AIP Advances is a peer-reviewed, open access journal that has an inclusive scope covering all areas of physical science. The journal is freely accessible to the global public and therefore offers a high level of visibility to the magnetism research presented at the Annual Conference. Conference presenters who submit their paper to AIP Advances will be able to publish without paying the article processing charge.
The American Physical Society (APS) Topical Group on Magnetism and its Applications, or GMAG, represents one of the fastest-growing scientific sectors of the APS. Membership in GMAG—an annual investment of only $10 for APS members—not only helps you keep up with the fast-paced field of Magnetism but also provides the following features:
- A convenient way to connect with other members of the magnetism community
- The GMAG Newsletter, distributed biannually
- The opportunity to shape the GMAG-sponsored sessions and symposia at the March Meeting, 80 sessions in all for 2016. The Magnetism sorting category received 921 abstracts, which is ~10% of all abstracts submitted.
- Access to GMAG-sponsored graduate student awards and sponsorships
- Potential to increase the number of invited talks on magnetism at the March Meeting
- Potential to increase the number of APS Fellows sponsored by GMAG
- The opportunity to help shape the future of Physics in the US by participating in GMAG-sponsored student outreach activities and Congressional visitations.
High current, high stability, highly accurate. Less than 1 ppm/K TC and less than 10 ppm ripple on wide current ranges are among some of our specs. CAEN ELS magnet power supplies are designed with a completely digital control and feedback loop, allowing for softwarebased adjustment of PID parameters, synchronizing fully and behaving nicely with your reactive loads (up to 100 H). Supporting large installations at many synchrotrons and colliders around the world, our offerings include standard and custom products. Home-grown DCCT current sensors are implemented within the supplies for aiding in such performance, or are available separately in various models with a complete digitizing current measurement system for your own setups. CAEN ELS is represented in the U.S. by CAEN Technologies.
The evico magnetics GmbH was founded in 2006 as spin-off of the Leibniz Institut for Solid State and Materials Research (IFW) Dresden. The main products are: (i) Advanced magneto-optical wide-field Kerr microscope systems for the visualization of magnetic domains and magnetization processes in all kinds of magnetic materials. The Kerr microscopes also serve as magneto-optical magnetometers for the sensitive and local measurement of hysteresis loops by MOKE magnetometry. (ii) High Pressure Milling Vials with a gas temperature monitoring system for the synthesis of magnetic powders and hydrogen storage materials.
GMW offers Electromagnet Systems for magnetic material, thin film, and spintronics studies including the Miniature Projected Field Electromagnet family of: 5201 for in-plane fields; 5203 for vertical fields; 5204 for true 3-axis vector field; 5205 series for larger volume, modest vertical fields; and 5207 for vertical fields to +/-1T.
Dipole magnets for FMR applications and full-wafer test are available with fields to +/-2T and true bipolar operation, along with HTS-110 compact Electromagnets including Short Solenoids to +/-3T and Projected Field magnets to +/- 2T.
We also offer One- and Three-component Magnetic Sensors, Transducers and Field Mappers, including: Metrolab Three-Component Magnetic Field Probes with USB Interface and LabView software, full-scale, calibrated ranges of +/-100uT, +/-8mT, +/-3T and +/-14T; Senis One-, Two and Three-Component Hall Transducers with analog output, full-scale field ranges to +/-20T and frequency response from dc to 75kHz that can be used stand-alone or in Senis Magnetic Field Mapping Systems; and Group3 High Precision Digital Probes with traceable calibration to 12T.
Established in 1959, Laboratorio Elettrofisico is the recognized leader in design and manufacturing of high-tech magnetizing and magnetic measurement equipment, and manual, semi-automatic and automatic workstations. Our products include: Magnetizers, Magnetizing Fixtures, De-magnetizers, Magnetic Scanners, Hysteresisgraphs, Hall Probes, Fluxmeters, Helmholtz Coils, and Electromagnets with DC Power Supplies.
Headquartered in Milan, Italy. Laboratorio Elettrofisico USA has sales, service, manufacturing and laboratory with a testing facility, in Lake Orion, Michigan. Contact a specialist at our Lake Orion, Michigan office for more information.
Materion offers the widest range of high purity thin film materials to meet your advanced memory requirements. We have a comprehensive portfolio of specialty materials to support STT-RAM (MRAM) applications. These include fine-microstructure precious metals such as Palladium alloys, Platinum alloys, Iridium alloys and Ruthenium. We manufacture high purity tunnel junction materials of Magnesium, Magnesium Oxide and Magnesium-Aluminum alloys. Our casting and purification technology produces CoFe and CoFeB alloys with very low oxygen impurity. In addition, we offer services such as sputter target bonding, precision parts cleaning, and precious / high value metal reclamation services.
Materials (ISSN 1996-1944; CODEN: MATEG9) is a peer-reviewed open access journal of materials science and engineering published semi-monthly online by MDPI. It has been indexed by the Science Citation Index Expanded (Web of Science), Ei Compendex and other databases. The 2019 Impact Factor is 3.057 and the median publishing time is around 30 days.
At Qnami we develop fundamental new technology using quantum mechanics.
The Qnami ProteusQ is a complete quantum microscope system. It is the first scanning NV (nitrogen-vacancy) microscope for the analysis of magnetic materials at the atomic scale. The Qnami ProteusQ system comes with state-of-the-art electronics and software. Its flexible design allows for future adjustments and scaling, expansion and capability upgrades. The proprietary Qnami ProteusQ quantum technology provides high precision images for you to see directly the most subtle properties of your samples and the effect of microscopic changes in your design or fabrication process.
Quantum Design manufactures automated material characterization systems providing temperatures from 0.05 to 1000 K, magnetic fields up to 16 tesla, and a wide range of measurements, including: magnetometry, electrical transport, heat capacity, thermal transport, Raman spectroscopy, FMR and SPM. Instruments include the PPMS®, SQUID-based MPMS®3, VersaLab™, and DynaCool™. Additionally, Quantum Design manufactures helium liquefiers and recovery systems, and recently introduced an innovative 7 tesla magneto-optical cryostat (OptiCool®). Quantum Design also distributes direct write and nano-lithography systems, NanoMOKE, FMR spectrometers, sub-kelvin ADR cryostats, SNSPD single photon detectors and time tagging electronics, quantum education kits, and AFM for SEM/FIB.
Automate your lab! As a spin-off of the Helmholtz-Center in Dresden-Rossendorf, THATec Innovation is a company founded by scientists for scientists.
Our lab automation framework thaTEC:OS is the most versatile solution for any research lab. The modular concept lets you easily control any number of devices on any number of PCs for an automated measurement. Add or remove devices from your setup at any time without any additional programming, just plug & play.
- Integrated lab book: never forget to note down any device setting any more
- Measurement database: keep track on all your measurements
- Future-proof by using the open-source data format HDF5
From our own longstanding experience in experimental physics, our major goal to develop hardware and software solutions to let you profit from our experience in the in the areas of our expertise: the automation of laboratory devices, optical scanning microscopy, and Brillouin light scattering.