Hong Zhou scite author profile

The essence of rational design syntheses of functional inorganic materials lies in understanding and control of crystal structures that determine the physical properties. AgGaS2 has the highest figure of merit for IR nonlinear optical interactions to date, but suffers low laser‐induced damage threshold (LIDT). The partial Li substitution of Ag atoms is now shown to push up the bottom of the conduction band and flatten the top of the valence band, leading to an ultrawide band gap of 3.40 eV (record high for AgGaS2, indicating a transparency edging nearly 180 nm shorter than that of AgGaS2), which gives Li0.60Ag0.40GaS2 a LIDT 8.6 times stronger when AgGaS2 is compared. Li0.60Ag0.40GaS2 exhibits 1.1 times stronger nonlinear susceptibility, which is because the energy‐favorable Li substitution gradually decreases the sulfur dislocation in the lattice, which allows a better geometric superposition of nonlinear optical tensors.

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Signal to noise ratio scaling and density limit estimates in longitudinal magnetic recording

Bertram

Zhou

Gustafson

1998

IEEE Trans. Magn.

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Micromagnetic study of switching speed in perpendicular recording media

et al. 2001

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PV balancers: Concept, architectures, and realization

Zhou

Zhao

Han

2012

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Room-temperature ferromagnetism in Cu-doped TiO2 thin films

et al. 2008

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Hong Zhou

Dislocations that Decrease Size Mismatch within the Lattice Leading to Ultrawide Band Gap, Large Second‐Order Susceptibility, and High Nonlinear Optical Performance of AgGaS₂

Signal to noise ratio scaling and density limit estimates in longitudinal magnetic recording

Micromagnetic study of switching speed in perpendicular recording media

PV balancers: Concept, architectures, and realization

Room-temperature ferromagnetism in Cu-doped TiO2 thin films

Contact Info

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Resources

About

Hong Zhou

Dislocations that Decrease Size Mismatch within the Lattice Leading to Ultrawide Band Gap, Large Second‐Order Susceptibility, and High Nonlinear Optical Performance of AgGaS2

Signal to noise ratio scaling and density limit estimates in longitudinal magnetic recording

Micromagnetic study of switching speed in perpendicular recording media

PV balancers: Concept, architectures, and realization

Room-temperature ferromagnetism in Cu-doped TiO2 thin films

Contact Info

Product

Resources

About

Dislocations that Decrease Size Mismatch within the Lattice Leading to Ultrawide Band Gap, Large Second‐Order Susceptibility, and High Nonlinear Optical Performance of AgGaS₂