Changxiu Li scite author profile

A multiple quantum-well semiconductor saturable absorber mirror (MQW-SESAM) structure has been investigated by femtosecond pump-probe laser spectroscopy at a central wavelength of around 1050 nm. Coherent acoustic phonons are generated and detected over a wide frequency range from ~15 GHz to ~800 GHz. In the optical absorption region, i.e., in the multiple quantum wells (In0.27Ga0.73As), acoustic frequency combs centered at ~365 GHz, with a comb spacing of ~33 GHz, are generated. Most importantly, in the transparent region, i.e., in the distributed Bragg reflector, which is formed by a non-doped long-period semiconductor GaAs/Al0.95Ga0.05As superlattice, the mini-Brillouin-zone center, as well as zone-edge acoustic modes, are observed. The mini-zone-center modes with a fundamental frequency of 32 GHz can be attributed to the spatial modulation of the pump optical interference field with a period very close to that of the distributed Bragg reflector, in combination with the periodic spatial modulation of the electrostriction coefficient in the distributed Bragg reflector. The excitation of mini-zone-edge modes is attributed to the stimulated subharmonic decay of the fundamental center modes. Their subsequent back-folding to the mini-Brillouin-zone center makes them Raman active for the probe light.

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High-speed asynchronous optical sampling based on GHz Yb:KYW oscillators

Li¹,

Krauß²,

Schäfer³

et al. 2017

Opt. Express

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A low-cost scheme of high-speed asynchronous optical sampling based on Yb:KYW oscillators is reported. Two GHz diode-pumped oscillators with a slight pulse repetition rate offset serve as pump and probe source, respectively. The temporal resolution of this system is limited to 500 fs mainly by the pulse duration of the oscillators and also by relative timing jitter between the oscillators. A near-shot-noise noise floor around 10^-6 (∆R/R) is obtained within a data acquisition time of a few seconds. The performance of the system is demonstrated by measurements of coherent acoustic phonons in a semiconductor sample that resembles a semiconductor saturable absorber mirror or an optically pumped semiconductor chip.

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Diphosphinite Ag^I and Pd^II Dinuclear Complexes as Adaptable Anion Receptors: An Unprecedented Bridging Mode for the PF₆⁻ Ion

Pattacini

Graff

et al. 2008

Angew Chem Int Ed

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The special guest: In the host–guest chemistry of dinuclear complexes that contain the 9H‐fluorene‐9,9′‐dimethanediphenylphosphinite ligand the synergy between the phenyl groups and the axial fluorene moiety leads to the formation of molecular cavities that have selective steric affinity for the anions BF4− or PF6− (see picture). An unprecedented M⋅⋅⋅F(PF5)⋅⋅⋅M bridging coordination mode of PF6− has now been established.

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Changxiu Li

Novel MgCl2-supported catalyst containing diol dibenzoate donor for propylene polymerization

Broadband Photo-Excited Coherent Acoustic Frequency Combs and Mini-Brillouin-Zone Modes in a MQW-SESAM Structure

High-speed asynchronous optical sampling based on GHz Yb:KYW oscillators

Diphosphinite Ag^I and Pd^II Dinuclear Complexes as Adaptable Anion Receptors: An Unprecedented Bridging Mode for the PF₆⁻ Ion

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Changxiu Li

Novel MgCl2-supported catalyst containing diol dibenzoate donor for propylene polymerization

Broadband Photo-Excited Coherent Acoustic Frequency Combs and Mini-Brillouin-Zone Modes in a MQW-SESAM Structure

High-speed asynchronous optical sampling based on GHz Yb:KYW oscillators

Diphosphinite AgI and PdII Dinuclear Complexes as Adaptable Anion Receptors: An Unprecedented Bridging Mode for the PF6− Ion

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Product

Resources

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Diphosphinite Ag^I and Pd^II Dinuclear Complexes as Adaptable Anion Receptors: An Unprecedented Bridging Mode for the PF₆⁻ Ion