Highlights

Todd Emrick

May 7, 2012

Cornell University

A Better Type of Computer Memory Demonstrated

L. Liu, C.-F. Pai, Y. Li, H. W. Tseng, D. C. Ralph, and R. A. Buhrman, Science 336, 555-558, (2012).

Newly discovered “giant” spin Hall effect enables simple and efficient magnetic memory

May 7, 2012

Cornell University

Visualizing the intricate electron pairing in iron-based superconductors

M. P. Allan, A. W. Rost, A. P. Mackenzie, Y. Xie, J. C. Davis, K. Kihou, C. H. Lee, A. Iyo, H. Eisaki, and T.-M. Chuang, , Science 336, 563-567, (2012).

Correlated motion provides new clues to the magnetic origin of high-temperature superconductivity Superconducting wires conduct electricity perfectly — without any energy losses — because each electron spontaneously bonds to a partner electron. The pairs then perform an intricate dance down the wire, never bumping into the walls or other pairs. Unfortunately,

May 3, 2012

University of Utah

FRG-2 – Using Weakly Spin-Coupled Polaron Pair States for a Calibration Free Absolute Magnetometry

W. J. Baker, K. Ambal, D. P. Waters, R. Bardaa, K. v. Schooten, D. R. McCamey, J. M. Lupton, C. Boehme

Objective: A precise absolute magnetometer based on organic spintronics that is scalable to micron dimensions, has low cost and that is not adversely affected by environmental influences (temperature, air etc.). Approach: Integrated bipolar MEH-PPV device above magnetic field strip lines for magnetic resonant excitation. The B-field is measured through spin-dependent current changes under magnetic resonance. Results and Significance: For the p-conjugated polymer MEH-PPV, an ABSOLUTE sensitivity of

May 3, 2012

University of Utah

Liquid Metal-Based Plasmonics

Ajay Nahata and Z. Valy Vardeny

Objective: To develop and characterize new plasmonic metamaterials in the terahertz (THz) spectral range. Approach: Explore unconventional materials that are typically not suitable for plasmonics applications at optical frequencies but exhibit reasonable conductivities at THz frequencies. Results and Significance: Liquid metals and well-developed microfluidic technology can be used successfully to create useful devices in a frequency range commonly referred to as the “gap in the electromagnetic spectrum.”

May 3, 2012

University of Utah

Seed Project: The Dynamics of Organic Magneto-resistance (OMAR)

Andrey Rogachev and Tho Nguyen

Objective: To study the dynamics of magneto-resistance in organic diodes Approach: Measure electronic transport and magneto-transport of organic diodes as a function of frequency with an applied magnetic field using admittance spectroscopy

May 3, 2012

University of Utah

JELL-O OPTICS ACTIVITY

MRSEC outreach activities coordinate with Utah Core Curriculum Standards. These sixth-graders are studying the properties of light in their classroom. The Adelante program seeks to increase the expectation of university attendance and success among Hispanic students at Jackson Elementary. Participants:

May 2, 2012

Georgia Institute of Technology

Twisting the height away

M. Kindermann and P. N. First, Georgia Tech, School of Physics

Multilayer graphene grown at Georgia Tech to heights of 1 to 10 nanometers contains non-graphitic “twists” between layers. Our recent theory describes the top layer as a single, effectively isolated graphene sheet. The remaining multilayer creates a periodically varying mass of the top-layer electrons: from positive, to zero, to negative(!). This makes intuition from single-layer graphene available for the analysis of twisted multilayer graphene, and predicts a regular pattern in the electronic structure that has been observed in experiments from our GT/NIST collaboration.

May 2, 2012

Georgia Institute of Technology