Marcy's Musings: The Growing Industry
It’s Only Common Sense: Here’s What To Do After IPC APEX EXPO 2024
Dan’s Biz Bookshelf: Seeing the HowHot Stuff: Magnetic Domain Walls
October 19, 2015 | Physikalisch-technische BundesanstaltEstimated reading time: 2 minutes
As early as in 1821, physicist Thomas Johann Seebeck discovered that a temperature difference between the two ends of a metallic wire generates an electric voltage between the ends of this wire. Today, this so-called "Seebeck effect" is used, for example, in thermocouples to directly convert waste heat into electric energy. The size of the electric voltage generated hereby depends not only on the electric, but also on the magnetic properties of the material. Thus, in a ferromagnetic material (such as iron), the Seebeck coefficient changes when the magnetization is turned around in an external magnetic field. This behavior is also called the "magneto-Seebeck effect".
At PTB, the thermoelectric properties of single magnetic nanowires have now been investigated in detail for the first time. If, in a magnetic nanowire, two differently poled areas come into contact with each other, a magnetic domain wall occurs in the transition area. Hereby, the presence or absence of the domain wall manifests itself by a change in the electric resistance of the wire which can be measured via electric contacts.
The recent investigations have shown for the first time that the presence or absence of the domain wall also leads to a measurable change in the thermoelectric voltage generated by the wire. For this purpose, the experiments carried out consisted in heating one side of the wire with an electric heater and in measuring the Seebeck voltage via two contacts (see figure). An indentation in the wire allowed the scientists to capture exactly one single magnetic domain wall between the contacts and to determine the resulting difference in the Seebeck voltage. It turned out that the domain wall's magneto-Seebeck effect leads to an increase in the total thermoelectric voltage measured in the nanowire.
Magnetic domain walls occur in all macroscopic and nanoscale magnetic materials and components. The results, which have now been published, allowed not only the magnetic and electric properties, but also the thermoelectric properties of these fundamental magnetic structures to be detected and described.
Share on:
Suggested Items
The Connection Between Wire Harness and Box Build
04/17/2024 | Nolan Johnson, I-Connect007Christina Rutherford is a technical lead and expert in materials engineering at Honeywell, where her specialty is the design, specification, and manufacture of cables and wire harnesses. Rutherford also sits on the committee for IPC/WHMA-A-620. In this conversation, we explore the changing dynamics in wire harnesses and how they relate to box build. Christina’s standards work allows her to draw insightful parallels between wire harness and box build.
DOCOMO, NTT, NEC and Fujitsu Develop Top-level Sub-terahertz 6G Device
04/12/2024 | JCN NewswireNTT DOCOMO, INC., NTT Corporation, NEC Corporation and Fujitsu Limited jointly announced today the development of a top-level (1) wireless device capable of ultra-high-speed 100 Gbps transmissions in the 100 GHz and 300 GHz sub-terahertz bands.
Quectel Introduces Versatile BG95-S5 NTN Satellite Communication Module
04/09/2024 | BUSINESS WIREEmbedded World - Quectel Wireless Solutions, a global IoT solutions provider, today announces the launch of the Quectel BG95-S5 3GPP non-terrestrial network (NTN) satellite communication module. The module supports 3GPP Release 17 IoT-NTN in the S and L band frequencies for satellite communications. In addition, the multi-mode BG95-S5 supports LTE Cat M1, Cat NB2, eGPRS and integrated GNSS.
Semtech Pioneers the Path to 6G with Advanced 5G Wireless Technologies
03/27/2024 | BUSINESS WIRESemtech Corporation, a leader in high-performance semiconductors, IoT systems and cloud connectivity services, unveiled its latest innovations poised to shape the future of 5G and pave the way for 6G.
Keysight Accelerates Its 6G Efforts with NVIDIA 6G Research Cloud Platform
03/22/2024 | Keysight Technologies, Inc.Keysight Technologies, Inc. is collaborating on the new NVIDIA 6G Research Cloud Platform, which includes the NVIDIA Aerial Omniverse Digital Twin, an open, flexible, and interconnected framework of network emulation resources offering researchers a comprehensive tool suite on which to develop new adaptations of artificial intelligence (AI) for radio access networks (RAN).