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High-Precision γ-Ray Spectroscopy of Λ Hypernuclei
The γ-ray spectroscopy study of Λ hypernuclei is reviewed, focusing on a series of experiments for high-precision γ-ray measurement using dedicated... -
High-Precision γ-Ray Spectroscopy of Λ Hypernuclei
The γ-ray spectroscopy study of Λ hypernuclei is reviewed, focusing on a series of experiments for high-precision γ-ray measurement using dedicated... -
Rabi-oscillation spectroscopy of the hyperfine structure of the muonium atom for high-precision determination of the muon mass
Muonium (Mu) is a hydrogenlike atom comprising a positive muon and an electron, both pointlike leptons. Spectroscopy of Mu is a promising method in...
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Precision spectroscopy and laser-cooling scheme of a radium-containing molecule
Molecules containing heavy radioactive nuclei are predicted to be extremely sensitive to violations of the fundamental symmetries of nature. The...
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Advances in cavity-enhanced methods for high precision molecular spectroscopy and test of fundamental physics
Cavity-enhanced spectroscopic techniques are highly sensitive laser-based methods for interrogating the atomic and molecular constituents of any...
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Microwave Spectroscopy
Microwave spectroscopy of confined particles in Penning traps is mainly applied to magnetic dipole transitions in various contexts. The strong... -
Photodetectors Based on GalnAsSb/GaAlAsSb Heterostructures for the Practical Tasks of Precision Diode Laser Spectroscopy
AbstractThe paper considers the uncooled photodetectors based on GalnAsSb/GaAlAsSb heterostructures, which can be applied in precision diode laser...
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Optical Spectroscopy
Confinement of particles in Penning traps yields two major advantages for spectroscopy, namely localisationLocalisation for extended periods (i.e.... -
Precision nuclear physics experiments and theory
The advances in technology mainly concerning ion traps, storage rings, lasers, high-precision frequency measurements, detectors, and particle beams...
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Radio-Frequency Spectroscopy: Penning-Trap Mass Spectrometry
This chapter takes a short look at mass spectrometry in Penning traps, which to some extent is one specific application of radio-frequency... -
Infrared Spectroscopy
Coblentz determined the relation between infrared spectra and molecular identity. Infrared spectroscopy became a tool for chemical analysis widely... -
Optical Frequency-Comb Generation and High-Resolution Laser Spectroscopy
The new alliance between the time and frequency domains in laser spectroscopy has made it possible to develop ultrafast counting schemes that can... -
Approaching the Ultimate Limit in Measurement Precision with RASER NMR
Radio-frequency Amplification by Stimulated Emission of Radiation (RASER) is a promising tool to study nonlinear phenomena or measure NMR parameters...
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Local resonance based precision collimation of THz radiation in a defect containing 1D photonic resonator: spectroscopy and metrology
A planar photonic resonator containing a unitary defect in the middle of structure can exhibit a system of extraordinary narrow resonance peaks of...
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Femtosecond stimulated Raman spectroscopy
First demonstrated in 1994, femtosecond stimulated Raman scattering (FSRS) has gained popularity since the early 2000s as an ultrafast pump–probe...
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Tip-Enhanced Raman Spectroscopy
Tip-enhanced Raman spectroscopy (TERS) is a cutting-edge analytical technique that combines the power of Raman spectroscopy with apertureless... -
Nuclear structure studies by collinear laser spectroscopy
High-resolution laser spectroscopy can be used to precisely measure atomic hyperfine structures and shifts in spectral lines. These nuclear...
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Optical Tweezers in Raman Spectroscopy
Optical tweezers and Raman spectroscopy (OTRS) are two powerful techniques widely used in the field of biophysics for studying the structural and...