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1

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The electronic structure of NiH: The {Ni+3d 9 2D} supermultiplet (1991)

Gray, Jeffrey A. ; Li, Mingguang ; Nelis, Thomas ; [et al.]

College Park, Md. : American Institute of Physics (AIP)

The Journal of Chemical Physics 95 (1991), S. 7164-7178

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ISSN: 1089-7690

Source: AIP Digital Archive

Topics: Physics , Chemistry and Pharmacology

Notes: A global deperturbation is presented for all electronic states of NiH with T0 values below 0.3 eV. These states form an isolated group and are treated as components of a molecular "supermultiplet'' which is derived from a nickel-centered 3d9 electron configuration such as that found in the 2D term of Ni+. Observed term energies for all low-lying states, including some vibrationally excited levels, are used in a least squares fit to the supermultiplet model. A crucial feature of the supermultiplet model is its employment, wherever possible, of atomic angular (e.g., L±||LΛ〉=[L(L+1)−Λ(Λ±1)]1/2||LΛ±1〉) and radial (e.g., spin–orbit coupling constants) matrix elements to define and constrain the molecular effective Hamiltonian. A relatively small number of adjustable parameters are required to represent the v=0 and 1, J=0.5–11.5 term values in the supermultiplet picture and accurately describe a variety of observations, which include large Ω doublings, unusually large and J, Ω, e/f-dependent Zeeman g values, and a symmetry-forbidden (ΔΛ=2) rotational pertubation. The number of independently adjustable parameters required by the supermultiplet model is significantly smaller than a standard 2Δ, 2Π, 2Σ+ deperturbation model. In addition, the fitted deperturbed (i.e., nonrelativistic and nonrotating) molecular constants for the 2Δ, 2Π, 2Σ+ components of the NiH supermultiplet are in better agreement with theoretical descriptions than previous empirical constants taken directly, without deperturbation, from spectra. The fit model also yields an empirical value of the (3d9)σ∼3d10 configuration mixing coefficient, which is relevant to a global understanding of the d9 and d10 states in the homologous NiH, PdH, PtH series of molecules.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1063/1.461393

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2

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Zeeman spectroscopy and deperturbation of the low-lying states of NiH (1990)

Gray, Jeffrey A. ; Li, Mingguang ; Field, Robert W.

College Park, Md. : American Institute of Physics (AIP)

The Journal of Chemical Physics 92 (1990), S. 4651-4659

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ISSN: 1089-7690

Source: AIP Digital Archive

Topics: Physics , Chemistry and Pharmacology

Notes: High resolution laser spectroscopy of the NiH molecule in a magnetic field has revealed strong homogeneous and heterogeneous perturbations among all of the low-lying electronic states. Fully resolved Zeeman splitting patterns from transitions between NiH magnetic sublevels were recorded with the technique of Zeeman optical–optical double resonance (ZOODR) spectroscopy. Using only the zero-field rotational energy levels as input to an electronic structure model, we have calculated Zeeman splittings (g values) for 19 rotational levels, and the predicted splittings are in very good agreement with observed Zeeman spectra. A group of 10 NiH molecular electronic states is seen to form a supermultiplet of levels originating from the Ni+ (3d9)2D atomic multiplet. We describe an effective Hamiltonian matrix that contains explicit terms coupling low-lying states through spin–orbit, vibrational, and rotational interactions. Supermultiplet eigenvectors graphically illustrate the profound mixing hidden beneath the apparent regularity of term value plots for the low-lying states of NiH. The success of the supermultiplet model for this simplest case (a single hole in a highly contracted 3d subshell), namely the successful prediction of strongly J dependent g values, makes us confident that this model will be applicable to other transition metal monohydrides.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1063/1.457732

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3

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Sideband optical–optical double resonance Zeeman spectroscopy of NiH: A new diagnostic for electronic and rotational assignment (1989)

Li, Mingguang ; Field, Robert W.

College Park, Md. : American Institute of Physics (AIP)

The Journal of Chemical Physics 90 (1989), S. 2967-2970

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ISSN: 1089-7690

Source: AIP Digital Archive

Topics: Physics , Chemistry and Pharmacology

Notes: We describe a one-laser optical–optical double resonance (OODR) scheme whereby sub-Doppler Zeeman splittings of individual rovibronic transitions are presented in a uniquely simple and diagnostically powerful format. Each rovibronic transition yields at most two Zeeman resonance features, each associated with the approximately M-independent (J,M+1)–(J,M − 1) Zeeman interval in either the upper or the lower state. Two laser beams, ωl and an acousto-optically shifted sideband at ωl + ωA0 , copropagate through the sample. A sideband-OODR-Zeeman (SOODRZ) resonance results when a (J,M+1)–(J,M − 1) interval is Zeeman tuned through resonance with ωA0 . The SOODRZ effect, detected against a dark background in a magnetic rotation spectroscopy configuration, is illustrated for several lines of the NiH B 2 Δ5/2–X 2 Δ5/2 (1,0) band.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1063/1.455897

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Laser spectroscopy of the CaOH A 2Π–X 2Σ+ (020)–(000) band: Deperturbation of the Fermi resonance, Renner–Teller, and spin–orbit interactions (1992)

Li, Mingguang ; Coxon, John A.

College Park, Md. : American Institute of Physics (AIP)

The Journal of Chemical Physics 97 (1992), S. 8961-8969

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ISSN: 1089-7690

Source: AIP Digital Archive

Topics: Physics , Chemistry and Pharmacology

Notes: The A 2Π–X 2Σ+ (020)–(000) band of CaOH has been observed using cw dye laser excitation, and rotationally analyzed. The measured line positions, in combination with data obtained in our laboratory for the A 2Π–X 2Σ+ (100)–(000) band, have been employed in a global deperturbation of the A(100) 2Π and A(020)κ 2Π and μ 2Π vibronic states that simultaneously takes account of Fermi resonance, the Renner–Teller effect, and spin–orbit coupling. All the measured line positions are reproduced to within the measurement accuracy of 0.005 cm−1. The Renner–Teller and Fermi resonance parameters in the CaOH A 2Π state have been determined: εω2=−36.569 19(97) cm−1 and W1=10.300 58(54) cm−1.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1063/1.463322

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Dye laser excitation studies of the A˜ 2Π(100)/(020)–X˜ 2Σ+(020)/(000) bands of CaOD: Analysis of the A˜ 2Π(100)∼(020) Fermi resonance (1996)

Li, Mingguang ; Coxon, John A.

College Park, Md. : American Institute of Physics (AIP)

The Journal of Chemical Physics 104 (1996), S. 4961-4977

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ISSN: 1089-7690

Source: AIP Digital Archive

Topics: Physics , Chemistry and Pharmacology

Notes: The CaOD A˜ 2Π(100)/(020)–X˜ 2Σ+(020)/(000) bands have been rotationally analyzed via high resolution laser excitation. All measured line positions have been included in a global matrix deperturbation that takes account of the Renner–Teller, spin–orbit, and Fermi resonance interactions occurring in the A˜(100)(020) 2Π vibronic manifold. The corresponding bands of CaOH were studied previously; in the present work, two new CaOH subbands, A˜(020)κ 2Π–X˜(020), were recorded, and the complete data set for CaOH has been refitted using the improved model reported in this paper. The Fermi resonance parameter for CaOD has been determined as ||W1||=5.2707(22) cm−1; for CaOH, the newly determined value, ||W1||=10.3256(5) cm−1 is very close to that determined originally. The (100)∼(020) Fermi interaction in the X˜ 2Σ+ state has also been investigated for both isotopomers. The vibrational dependence of the Renner–Teller parameter εω2 has been characterized, yielding values of the anharmonic quartic parameter, gˆ4=−0.1002(3) and −0.0666(5) cm−1 for CaOH and CaOD, respectively. The "harmonic'' Renner–Teller parameters are thus deduced as εω2=−35.6622(19) and −26.5605(31) cm−1 for CaOH and CaOD, respectively. The equilibrium bond lengths, molecular force constants and Coriolis coupling constants for both the A˜ and X˜ states have been evaluated. © 1996 American Institute of Physics.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1063/1.471762

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High-resolution analysis of the fundamental bending vibrations in the A˜ 2Π and X˜ 2Σ+ states of CaOH and CaOD: Deperturbation of Renner–Teller, spin–orbit and K-type resonance interactions (1995)

Li, Mingguang ; Coxon, John A.

College Park, Md. : American Institute of Physics (AIP)

The Journal of Chemical Physics 102 (1995), S. 2663-2674

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ISSN: 1089-7690

Source: AIP Digital Archive

Topics: Physics , Chemistry and Pharmacology

Notes: The v2=1 bending vibrational levels of the A˜ 2Π and X˜ 2Σ+ states of both CaOH and CaOD have been rotationally analyzed via laser excitation of the A˜(010) κ 2Σ, 2Δ, μ 2Σ←X˜(010)2Π, (000)2Σ+ bands. The estimated measurement accuracy for rotational transitions is 0.0035 cm−1. K-type resonances and level crossings have been identified between the A˜(010) 2Σ and 2Δ vibronic components, and account for the observation of dramatic intensity anomalies from quantum mechanical interference. An effective Hamiltonian has been constructed to model the Renner–Teller, spin–orbit, and K-type resonance interactions in the A˜(010) vibronic manifold, and to fit all the observed bands simultaneously for each isotopomer. The fundamental bending frequencies and Renner–Teller parameters have been determined: ν2(X˜)=352.9259(9), ν2(A˜)=363.1736(8) and εω2=−36.2634(6) cm−1 for CaOH; ν2(X˜)=266.8398(10), ν2(A˜)=274.6475(5), and εω2=−26.9601(8) cm−1 for CaOD. The isotope relations between the fitted molecular constants of CaOH and CaOD are examined. The spin-rotation constant γ and the centrifugal distortion constant AD of the spin–orbit coupling have been separated in the A˜ 2Π(010) level owing to the Renner–Teller effect. The equilibrium bond lengths and force constants in the X˜ 2Σ+ state have been derived based on the data of the two isotopomers. The Coriolis coupling constants have been derived from the harmonic force field, and yield calculated l-type doubling constants that are in excellent agreement with the experimental values for both CaOH and CaOD. © 1995 American Institute of Physics.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1063/1.468643

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Sideband optical–optical double resonance Zeeman spectroscopy. I. Theory of saturation and line shape behavior (1995)

McCarthy, Michael C. ; Kanamori, Hideto ; Li, Mingguang ; [et al.]

College Park, Md. : American Institute of Physics (AIP)

The Journal of Chemical Physics 102 (1995), S. 8295-8307

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ISSN: 1089-7690

Source: AIP Digital Archive

Topics: Physics , Chemistry and Pharmacology

Notes: Several variants of the one-laser, two-color technique of sideband optical–optical double resonance Zeeman (SOODRZ) spectroscopy, which enables Zeeman and hyperfine splittings to be measured at sub-Doppler resolution, are described; a detailed theory of the line shape and signal-to-noise ratio for each variant is also presented. In the single-frequency variant of SOODRZ spectroscopy, radio frequency sidebands are imposed onto a single-frequency continuous wave laser beam to determine energy splittings between pairs of closely spaced levels. Each pair of closely spaced levels is coupled to a third isolated level by optical transitions and is tuned into resonance by the Zeeman effect. A theoretical treatment of the SOODRZ effect is presented here. It is shown that both the real and imaginary contributions to the complex third-order optical susceptibility tensor χ(3) can be observed and that the SOODRZ signal originates from a cross term between the amplitude of the unperturbed frequency-modulated beam of the laser and the nonlinear signal amplitude Re{EL*⋅ENL}. The SOODRZ signal is directly proportional to ΔNμ4MI20 (where M is the modulation index), rather than (ΔN)2, μ8, and I30 as in degenerate four-wave mixing and other nonlinear spectroscopies, which means the detection sensitivity of SOODRZ spectroscopy is considerably higher for low laser intensities and at lower number densities.Moreover, the linewidth of the sub-Doppler feature is independent of the both the Doppler width of the optical transition and the natural width of the common linked level and, hence, is immune from the effects such as upper state predissociation. Two different types of modulators, acousto-optic and electro-optic, can be used in the single-frequency variant of SOODRZ spectroscopy. The unique features of SOODRZ schemes incorporating both types of modulators are described. SOODRZ spectroscopy can also be performed with a multimode broadband laser, where the adjacent cavity modes serve the same function as the sidebands in the single-frequency version. Examples of such multimode SOODRZ spectra will be presented as well. The effect of different detection schemes (i.e., nearly crossed polarizers and/or coherent detection), laser frequency detuning relative to the center of the absorption line, and ac magnetic field modulation conditions on the intensity, phase, and functional form of the sub-Doppler double resonance line shape will be discussed here. The simplest possible form of the SOODRZ line shape is a second derivative of a Lorentzian. © 1995 American Institute of Physics.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1063/1.468822

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8

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Role of mycorrhizal infection in the growth and reproduction of wild vs. cultivated plants (1988)

Koide, Roger ; Li, Mingguang ; Lewis, James ; [et al.]

Springer

Oecologia 77 (1988), S. 537-543

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ISSN: 1432-1939

Keywords: Vesicular-arbuscular mycorrhiza ; Avena sativa L. vs. Avena fatua L. ; Wild vs. cultivated plants ; Adaptations to infertility ; Mycorrhizal dependency

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Summary We tested the hypothesis that mycorrhizal infection benefits wild plants to a lesser extent than cultivated plants. This hypothesis stems from two observations: (1) mycorrhizal infection improves plant growth primarily by increasing nutrient uptake, and (2) wild plants often possess special adaptations to soil infertility which are less pronounced in modern cultivated plants. In the first experiment, wild (Avena fatua L.) and cultivated (A. sativa L.) oats were grown hydroponically at four different phosphorus levels. Wild oat was less responsive (in shoot dry weight) to increasing phosphorus availability than cultivated oat. In addition, the root: shoot ratio was much more plastic in wild oat (varying from 0.90 in the low phosphorus solution to 0.25 in the high phosphorus solution) than in cultivated oat (varying from 0.44 to 0.17). In the second experiment, mycorrhizal and non-mycorrhizal wild and cultivated oats were grown in a phosphorus-deficient soil. Mycorrhizal infection generally improved the vegetative growth of both wild and cultivated oats. However, infection significantly increased plant lifespan, number of panicles per plant, shoot phosphorus concentration, shoot phosphorus content, duration of flowering, and the mean weight of individual seeds in cultivated oat, while it had a significantly reduced effect, no effect, or a negative effect on these characters for wild oat. Poor positive responsiveness of wild oat in these characters was thus associated with what might be considered to be inherent adaptations to nutrient deficiency: high root: shoot ratio and inherently low growth rate. Infection also increased seed phosphorus content and reproductive allocation.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00377271

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Mycorrhizal fungi and the nutrient ecology of three oldfield annual plant species (1991)

Koide, Roger T. ; Li, Mingguang

Springer

Oecologia 85 (1991), S. 403-412

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ISSN: 1432-1939

Keywords: Abutilon theophrasti ; Ambrosia artemisiifolia ; Setaria lutescens ; Allelopathy ; Mycorrhiza

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Summary Three oldfield annual species (Abutilon theophrasti Medic., Ambrosia artemisiifolia L. and Setaria lutescens (Weigel) Hubb.) were investigated. All three developed substantial mycorrhizal infections when inoculated with Glomus etunicatum Becker & Gerd. Mycorrhizal infection dramatically increased phosphorus content and dry weight of both Abutilon and Ambrosia, but did not significantly affect dry weight and only modestly increased phosphorus content of Setaria. These results were consistent with a lower level of infection and much greater root density in Setaria than in the other species. When Abutilon was grown in the presence of Setaria, mycorrhizal infection had no effect on Abutilon phosphorus content or dry weight. The depressive effect of Setaria on the response to inoculation in Abutilon was probably not caused by water soluble allelopathic chemicals from Setaria roots, but soil leachate from Abutilon plants did inhibit infection in other Abutilon plants. The data were consistent with the hypothesis that the very high root density and effective soil exploitation of Setaria reduced the benefit from mycorrhizal infection in Abutilon via phosphorus depletion in a large proportion of the available soil volume. Furthermore, even if mycorrhizal infection were capable of increasing phosphorus content of Abutilon in the presence of Setaria, the very high competitive ability of Setaria for nitrogen in the soil could have reduced the benefit of an enhanced phosphorus content. Carbon isotope ratios were reduced in Abutilon by mycorrhizal infection, indicating a possible reduction in water use efficiency.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00320617

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