Folgen
Guan-Xiang Du
Titel
Zitiert von
Zitiert von
Jahr
Evidence of localized surface plasmon enhanced magneto-optical effect in nanodisk array
GX Du, T Mori, M Suzuki, S Saito, H Fukuda, M Takahashi
Applied Physics Letters 96 (8), 2010
1052010
Temperature dependence of giant tunnel magnetoresistance in epitaxial Fe/MgO/Fe magnetic tunnel junctions
SG Wang, RCC Ward, GX Du, XF Han, C Wang, A Kohn
Physical Review B 78 (18), 180411, 2008
772008
Imaging of Relaxation Times and Microwave Field Strength in a Microfabricated Vapor Cell
A Horsley, GX Du, M Pellaton, C Affolderbach, G Mileti, P Treutlein
Phys. Rev. A 88 (6), 063407, 2013
732013
Widefield microwave imaging in alkali vapor cells with sub-100 μm resolution
A Horsley, GX Du, P Treutlein
New Journal of Physics 17 (11), 112002, 2015
662015
Full electric control of exchange bias at room temperature by resistive switching
L Wei, Z Hu, G Du, Y Yuan, J Wang, H Tu, B You, S Zhou, J Qu, H Liu, ...
Advanced Materials 30 (30), 1801885, 2018
512018
Spin-dependent tunneling spectroscopy for interface characterization of epitaxial Fe/MgO/Fe magnetic tunnel junctions
GX Du, SG Wang, QL Ma, Y Wang, RCC Ward, XG Zhang, C Wang, ...
Physical Review B 81 (6), 064438, 2010
482010
Noninvasive imaging method of microwave near field based on solid-state quantum sensing
B Yang, Y Dong, ZZ Hu, GQ Liu, YJ Wang, GX Du
IEEE Transactions on Microwave Theory and Techniques 66 (5), 2276-2283, 2018
422018
Efficient nitrogen-vacancy centers’ fluorescence excitation and collection from micrometer-sized diamond by a tapered optical fiber in endoscope-type configuration
D Duan, GX Du, VK Kavatamane, S Arumugam, YK Tzeng, HC Chang, ...
Optics express 27 (5), 6734-6745, 2019
402019
Imaging microwave and DC magnetic fields in a vapor-cell Rb atomic clock
C Affolderbach, GX Du, T Bandi, A Horsley, P Treutlein, G Mileti
IEEE Transactions on Instrumentation and Measurement 64 (12), 3629-3637, 2015
402015
Shape-enhanced magneto-optical activity: Degree of freedom for active plasmonics
GX Du, T Mori, S Saito, M Takahashi
Physical Review B 82 (16), 161403, 2010
382010
A fiber based diamond RF B-field sensor and characterization of a small helical antenna
MM Dong, ZZ Hu, Y Liu, B Yang, YJ Wang, GX Du
Applied Physics Letters 113 (13), 2018
332018
Magneto-optical effects in nanosandwich array with plasmonic structure of Au/[Co/Pt]n/Au
GX Du, T Mori, M Suzuki, S Saito, H Fukuda, M Takahashi
Journal of Applied Physics 107 (9), 09A928-09A928-3, 2010
242010
Using diamond quantum magnetometer to characterize near-field distribution of patch antenna
B Yang, MM Dong, WH He, Y Liu, CM Feng, YJ Wang, GX Du
IEEE Transactions on Microwave Theory and Techniques 67 (6), 2451-2460, 2019
202019
Magnetic field effect on the localized plasmon resonance in patterned noble metal nanostructures
GX Du, S Saito, M Takahashi
IEEE transactions on magnetics 47 (10), 3167-3169, 2011
182011
Nitrogen-vacancy axis orientation measurement in diamond micro-crystal for tunable RF vectorial field sensing
GB Chen, WH He, MM Dong, Y Zhao, GX Du
IEEE Sensors Journal 20 (5), 2440-2445, 2019
162019
Laser-induced heating in a high-density ensemble of nitrogen-vacancy centers in diamond and its effects on quantum sensing
D Duan, VK Kavatamane, SR Arumugam, G Rahane, GX Du, YK Tzeng, ...
Optics Letters 44 (11), 2851-2854, 2019
162019
Transistor Based on Resonant Tunneling Effect of Double Barrier Tunneling Junctions
Z Zeng, X Han, J Feng, T Wang, G Du, F Li, W Zhan
US Patent App. 11/663,684, 2008
162008
Fast magneto-optical spectrometry by spectrometer
GX Du, S Saito, M Takahashi
Review of Scientific Instruments 83 (1), 2012
152012
Tailoring the Faraday effect by birefringence of two dimensional plasmonic nanorod array
GX Du, S Saito, M Takahashi
Applied Physics Letters 99 (19), 2011
132011
A novel design and fabrication of magnetic random access memory based on nano-ring-type magnetic tunnel junctions
XF Han, HX Wei, ZL Peng, HD Yang, JF Feng, GX Du, ZB Sun, LX Jiang, ...
材料科学技术: 英文版 23 (3), 304-306, 2007
122007
Das System kann den Vorgang jetzt nicht ausführen. Versuchen Sie es später erneut.
Artikel 1–20