Adam J. Perry scite author profile

We present a versatile new instrument capable of measuring rovibrational transition frequencies of molecular ions with sub-MHz accuracy and precision. A liquid-nitrogen cooled positive column discharge cell, which can produce large column densities of a wide variety of molecular ions, is probed with sub-Doppler spectroscopy enabled by a high-power optical parametric oscillator locked to a moderate finesse external cavity. Frequency modulation (heterodyne) spectroscopy is employed to reduce intensity fluctuations due to the cavity lock, and velocity modulation spectroscopy permits ion-neutral discrimination. The relatively narrow Lamb dips are precisely and accurately calibrated using an optical frequency comb. This method is completely general as it relies on the direct measurement of absorption or dispersion of rovibrational transitions. We expect that this new approach will open up many new possibilities: from providing new benchmarks for state-of-the-art ab initio calculations to supporting astronomical observations to helping assign congested spectra by combination differences. Herein, we describe the instrument in detail and demonstrate its performance by measuring ten R-branch transitions in the ν2 band of H3(+), two transitions in the ν1 band of HCO(+), and the first sub-Doppler transition of CH5(+).

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Sub-Doppler mid-infrared spectroscopy of molecular ions

Crabtree

Hodges

Siller

et al. 2012

Chemical Physics Letters

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The D-CIXS X-ray mapping spectrometer on SMART-1

Grandé

Browning

Waltham

et al. 2003

Planetary and Space Science

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HIGH PRECISION ROVIBRATIONAL SPECTROSCOPY OF OH⁺

Markus

Hodges

Perry

et al. 2016

ApJ

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The molecular ion OH+ has long been known to be an important component of the interstellar medium. Its relative abundance can be used to indirectly measure cosmic ray ionization rates of hydrogen, and it is the first intermediate in the interstellar formation of water. To date, only a limited number of pure rotational transitions have been observed in the laboratory making it necessary to indirectly calculate rotational levels from high-precision rovibrational spectroscopy. We have remeasured 30 transitions in the fundamental band with MHz-level precision, in order to enable the prediction of a THz spectrum of OH+. The ions were produced in a water cooled discharge of O2, H2, and He, and the rovibrational transitions were measured with the technique Noise Immune Cavity Enhanced Optical Heterodyne Velocity Modulation Spectroscopy. These values have been included in a global fit of field free data to a 3Σ− linear molecule effective Hamiltonian to determine improved spectroscopic parameters which were used to predict the pure rotational transition frequencies.

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The vibrational Zeeman effect

Moss

Perry

1973

Molecular Physics

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Adam J. Perry

High-precision and high-accuracy rovibrational spectroscopy of molecular ions

Sub-Doppler mid-infrared spectroscopy of molecular ions

The D-CIXS X-ray mapping spectrometer on SMART-1

HIGH PRECISION ROVIBRATIONAL SPECTROSCOPY OF OH⁺

The vibrational Zeeman effect

Contact Info

Product

Resources

About

Adam J. Perry

High-precision and high-accuracy rovibrational spectroscopy of molecular ions

Sub-Doppler mid-infrared spectroscopy of molecular ions

The D-CIXS X-ray mapping spectrometer on SMART-1

HIGH PRECISION ROVIBRATIONAL SPECTROSCOPY OF OH+

The vibrational Zeeman effect

Contact Info

Product

Resources

About

HIGH PRECISION ROVIBRATIONAL SPECTROSCOPY OF OH⁺