Thomas L. Henshaw scite author profile

Kinetic measurements of NCl(a 1 ∆) metastables produced by the photolysis of chlorine azide (ClN 3 ) at 193 nm are reported. High NCl(a 1 ∆) density (>10 15 molecules/cm 3 ) production facilitates measurements of the NCl(a 1 ∆) + NCl(a 1 ∆) self-annihilation rate. A gas phase transient chemical titration scheme is used to calibrate absolute NCl(a 1 ∆) density. The NCl(a 1 ∆) bimolecular rate coefficient at room temperature is (7.2 ( 0.9 × 10 -12 cm 3 /(molecule s) and has a magnitude very critical to the development of an NCl(a 1 ∆) + I( 2 P 3/2 ) f I*( 2 P 1/2 ) + NCl(X 3 Σ -) chemical laser. Despite the large value of the self-annihilation rate, intense I*( 2 P 1/2 ) emission via transfer from NCl(a 1 ∆) is strongly observed when mixtures of CH 2 I 2 and ClN 3 are photolyzed at 193 nm. Unlike the analogous O 2 (a 1 ∆) + I( 2 P 3/2 ) energy transfer system, the relatively large NCl(a 1 ∆) bimolecular rate constant suggests that NCl(a 1 ∆) transport times must be short and will require small chemical mixing regions for efficient lasing. In addition, the 300 K collisional quenching rate constants of NCl(a 1 ∆) by F 2 , Cl 2 , and Br 2 are (2.5 ( 1.1) × 10 -13 , (2.9 ( 0.6) × 10 -11 , and (1.4 ( 0.2) × 10 -10 cm 3 /(molecule s), respectively.

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A new energy transfer chemical laser at 1.315 μm

Henshaw

Manke

Madden

et al. 2000

Chemical Physics Letters

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Pharmacokinetic Evaluation of para‐Aminosalicylic Acid Granules

et al. 1994

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Soya Bean (Glycine max L. Merr.) Genotype Response to Early‐season Flooding: I. Root and Nodule Development

Henshaw¹,

Gilbert²,

Scholberg³

et al. 2007

J Agronomy Crop Science

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Soya bean is often grown in regions subject to periodic flooding, with the rooting zone most affected by flooding due to its proximity to the source of stress. Our objectives were to examine the effects of flooding soya bean on its primary roots, adventitious roots and root nodules, and to determine relationships between root morphological changes and early-season flood tolerance. The experiment was conducted in Belle Glade, FL with 11 soya bean genotypes subjected to (i) no flood, (ii) 2-week flood 21-35 days after sowing (DAS) or (iii) 4-week flood 21-49 DAS. All plants were harvested 49 DAS. Flooding reduced soya bean primary root weight, length and volume across genotypes. Adventitious root length and volume were greater in the 4-week than the 2-week flood. Soya bean nodule dry weight was threefold higher in the non-flooded treatments. Genotypic differences in root development and tolerance to flooding were noted, with early-season flood tolerance correlated with primary root dry weight, length and surface area, and adventitious root dry weight. However, there was no correlation between this study's early-season root development and late-season flood tolerance based on seed yield from previous studies. Our results indicate that full season trials may be necessary to identify flood-tolerant soya bean germplasm.

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Thomas L. Henshaw

Kinetics of NCl(aΔ) via Photodissociation of ClN₃

A new energy transfer chemical laser at 1.315 μm

Pharmacokinetic Evaluation of para‐Aminosalicylic Acid Granules

Soya Bean (Glycine max L. Merr.) Genotype Response to Early‐season Flooding: I. Root and Nodule Development

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About

Thomas L. Henshaw

Kinetics of NCl(aΔ) via Photodissociation of ClN3

A new energy transfer chemical laser at 1.315 μm

Pharmacokinetic Evaluation of para‐Aminosalicylic Acid Granules

Soya Bean (Glycine max L. Merr.) Genotype Response to Early‐season Flooding: I. Root and Nodule Development

Contact Info

Product

Resources

About

Kinetics of NCl(aΔ) via Photodissociation of ClN₃