Philip W. T. Pong scite author profile

Magnetoresistive (MR) sensors have been identified as promising candidates for the development of high-performance magnetometers due to their high sensitivity, low cost, low power consumption, and small size. The rapid advance of MR sensor technology has opened up a variety of MR sensor applications. These applications are in different areas that require MR sensors with different properties. Future MR sensor development in each of these areas requires an overview and a strategic guide. A MR sensor roadmap (non-recording applications) was therefore developed and made public by the Technical Committee of The IEEE Magnetics Society with the aim to provide an R&D guide for MR sensors intended to be used by industry, government, and academia. The roadmap was developed over a three-year period and coordinated by an international effort of 22 taskforce members from 10 countries and 17 organizations, including universities, research institutes, and sensor companies. In this paper, the current status of MR sensors for non-recording

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A Polyferroplatinyne Precursor for the Rapid Fabrication of L1₀‐FePt‐type Bit Patterned Media by Nanoimprint Lithography

Dong

et al. 2012

Advanced Materials

139

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A polyferroplatinyne polymer can be patterned on the surface of Si wafer in ordered nanoline or nanodot shapes with PDMS molds through nanoimprint lithography (NIL), and subsequent thermal treatment gives rise to the nanopatterned arrays of L1(0) -FePt nanoparticles with the same periodicities. The method offers excellent potential to be utilized in the simple and rapid fabrication of bit patterned media for magnetic data recording.

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Philip W. T. Pong

Magnetoresistive Sensor Development Roadmap (Non-Recording Applications)

A Polyferroplatinyne Precursor for the Rapid Fabrication of L1₀‐FePt‐type Bit Patterned Media by Nanoimprint Lithography

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Philip W. T. Pong

Magnetoresistive Sensor Development Roadmap (Non-Recording Applications)

A Polyferroplatinyne Precursor for the Rapid Fabrication of L10‐FePt‐type Bit Patterned Media by Nanoimprint Lithography

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Product

Resources

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A Polyferroplatinyne Precursor for the Rapid Fabrication of L1₀‐FePt‐type Bit Patterned Media by Nanoimprint Lithography