Quantum weak value amplified terahertz chiroptical measurement
Liping Xu, Jiangtao Xu, Xin Yao, Rumin Zhang, Gang Wen, Lei Wang, Xingxing Lu, Zaoxia Li, Wenquan Liu, Dongshan Wei, Xiaoli Li, Tianying Chang, Hong-Liang Cui

TL;DR
A new terahertz measurement technique using quantum weak value amplification improves detection of chiral properties in materials.
Contribution
A novel terahertz chiroptical measurement method using weak-value amplification for enhanced phase and amplitude detection.
Findings
Achieved a phase and amplitude measurement resolution of 10−4 rad in the time domain.
Successfully performed chiroptical spectroscopy on (R)- and (S)-limonene and lactose tablets.
Observed a 150% increase in lactose absorption coefficient using weak measurement techniques.
Abstract
A precise method for phase and amplitude detection in both the time and frequency domains of terahertz spectroscopy based on the weak-value amplification technique is proposed and demonstrated. Within the weak-value amplification scheme, the imaginary weak value enhances variations in the terahertz phase signals, whereas the real weak value amplifies changes in the terahertz amplitude signals. By employing various postselections in the terahertz weak measurement procedure in detecting minute changes of the phase and amplitude of the terahertz wave, we achieved a phase change range from −0.0187 rad to 0.0183 rad with an interval of 0.004 rad and an amplitude change range from −0.0238 rad to 0.0228 rad with an interval of 0.0056 rad. This results in a phase and amplitude measurement resolution of 10−4 rad in the time domain. In the frequency domain, E spectra are calculated to assess…
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Taxonomy
TopicsTerahertz technology and applications · Spectroscopy and Quantum Chemical Studies · Molecular spectroscopy and chirality
