Relative Phase Measurement Between Fundamental and Second-Harmonic Light

Chang, Richard K.; Ducuing, J.; Bloembergen, N.

doi:10.1103/physrevlett.15.6

Cited by 149 publications

(76 citation statements)

References 3 publications

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“…As such, a sign change of the magnetic contrast could stem from a substantial shift of the phase between magnetic and nonmagnetic MSHG contributions. In order to study the phase behavior in the vicinity of the SPR, we performed phase measurements using the nonlinear interferometry method, [36][37][38] where the reference quartz sample was translated along the optical beam. The angular dependence of the phase difference ϕ(θ ) extracted from the interference patterns, as described in Ref.…”

Section: Discussionmentioning

confidence: 99%

Nonlocal nonlinear magneto-optical response of a magnetoplasmonic crystal

et al. 2013

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Surface plasma resonance (SPR) excitation in a Co-based two-dimensional magnetoplasmonic crystal was found to strongly enhance the second-harmonic generation (SHG) efficiency. Large changes in the phase shift between magnetic and nonmagnetic SHG contributions were observed in the transversal Kerr effect as a function of the incidence angle. The activation of a nonlocal quadrupole mechanism of the magnetic SHG due to the SPR excitation was found to lead to an unusual phase behavior in the vicinity of the resonance.

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Section: Discussionmentioning

confidence: 99%

Nonlocal nonlinear magneto-optical response of a magnetoplasmonic crystal

et al. 2013

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“…67. This method, however, is not compatible with, e.g., ultrahigh- between the fundamental and SHG pulses that destroys the interference.…”

Section: B Measurements Of the Optical Phasementioning

confidence: 99%

Magnetization-induced-second-harmonic generation from surfaces and interfaces

2005

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Magnetization-induced effe_ct.s in the nonlinear optical response of magnetic media, such as magnetizationinduced-second-harmonic generation (MSHG), led to very strong and novel non linear magneto-optical effects that appear to be very sensitive to magnetic interface properties. This surface-interface sensitivity ofMSHG, in combination with the very large magneto-optical effects, has led to a fast development of this technique over the past decade. On the one hand, an extreme sensitivity of MSHG to the electronic and magnetic structure of clean surfaces has been successfully demonstrated. On the other hand, the penetration depth of light allows one to use this sensitivity to study buried interfaces in multilayer systems. Further experimental developments of the MSHG technique, such as space and time t·esolution as well as magnetization-sensitive-sumfrequency generation, appear to be promising as well.

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“…To probe only the water/air interface, we employ phase-sensitive SHG. Phase-sensitive SHG has been used both non-spectroscopically [16][17][18] and spectroscopically 19,20 and recently, a number of groups have combined this into time-resolved and phase-sensitive SHG, [21][22][23] primarily for use at semiconductor interfaces. We have developed a variant of these techniques that is not spectroscopic but benefits from a lock-in measurement and excellent phase stability, which is crucial to the current measurements.…”

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Charge Transfer to Solvent Dynamics at the Ambient Water/Air Interface

Nowakowski

Woods

Verlet

2016

J. Phys. Chem. Lett.

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Relative Phase Measurement Between Fundamental and Second-Harmonic Light

Cited by 149 publications

References 3 publications

Nonlocal nonlinear magneto-optical response of a magnetoplasmonic crystal

Nonlocal nonlinear magneto-optical response of a magnetoplasmonic crystal

Magnetization-induced-second-harmonic generation from surfaces and interfaces

Charge Transfer to Solvent Dynamics at the Ambient Water/Air Interface

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