Directional Correlation Measurements Research Articles

A comparison of models for deriving dry deposition fluxes of O<sub>3</sub> and SO<sub>2</sub> to a forest canopy

4 canopy models, representing the various classes of models that are currently used to estimate gaseous deposition to plant canopies are presented. The predictive capabilities of the models are evaluated with direct eddy correlation measurements of SO2 and O3 fluxes to a deciduous forest for both well-watered and water-stressed conditions. By increasing the degree of detail of the exchange-governing physical processes from the more simple single laye,: model to the more detailed multi-layer models, the predictions of the deposition rates improved by 40-50% as determined from the root mean square error (rmse). We also found by including the effect of water stress in the stomatal resistance formulations, the rmse of the predictions were decreased by generally 50% for the models that were examined.

Wind stress measurements over rough ice during the 1984 Marginal Ice Zone Experiment

The indirect dissipation method has been used to estimate momentum fluxes from a ship working in the outer marginal ice zone of the East Greenland Sea during the 1984 Marginal Ice Zone Experiment. These indirect measurements have been compared with direct eddy correlation measurements whenever the ship was moored to an ice floe and a sonic anemometer could be deployed. Neutral drag coefficients referenced to 10 m have been grouped in categories for various ice types and concentrations during 4‐ to 11‐m/s winds. There is a gradual increase in the neutral drag coefficient with ice concentration and a doubling of the value in 70–90% concentration from 2.7 ± 0.3 × 10−3 (mean plus or minus standard deviation) for a mixture of brash, small, and medium floes with rafted edges to 5.3 ± 0.5 × 10−3 over very rough cakes and brash with many sharp vertical edges. Drag coefficients in this region of multiyear floes with larger roughness features are typically higher than most values obtained over ice and reported in the literature and up to 5 times larger than open ocean values for similar wind speeds. The drag coefficient is determined primarily by floe size, roughness, and concentration.

Study of the radioactive decay of192Ir

Theβ − and electron capture decays of192Ir to the levels of192Pt and192Os respectively have been investigated to verify the existence of some of weak gamma transitions reported earlier. Gamma-gamma directional correlation measurements have been done for 13-cascades. Multipole admixture of 201, 283, 485 keV gamma transitions in192Os and 296, 308, 416, 604 keV gamma transitions in192Pt have been deduced. A spin value of 4+ has been reaffirmed on the basis of almost zero intensity of 1201 keV gamma ray (4+→0+) and 416→(468)→316 keV cascade directional correlation measurements.

Studies of trace element transport in plants using high resolution γ-ray spectroscopy and perturbed directional correlation measurements

Two examples are given to illustrate how modern experimental techniques may extend the scope of possibilities of radiotracer applications. The first example refers to the use of a Ge-detector γ-ray spectrometer to measure the transport in plants of 15 elements simultaneously. The second example presented is an in-vivo study of the binding of Cd-ions in plants using meansurements of perturbed γ-γ-directional correlations.

Mixing parameters of gamma transitions in 214Po.

Directional correlation measurements with a Ge-Ge(Li) coincidence spectrometer were made on thirteen gamma ray cascades in $^{214}\mathrm{Po}$, the levels of which were excited by the ${\ensuremath{\beta}}^{\mathrm{\ensuremath{-}}}$ decay of 19.7 min $^{214}\mathrm{Bi}$. Spins were deduced for twelve levels in $^{214}\mathrm{Po}$ and the mixing ratio, \ensuremath{\delta}, determined for eleven transitions.

Levels and transitions in140Ba populated following the decay of140Cs

Levels in 140Ba were populated following the beta decay of 140Cs (T12/=64 s) which was produced by the online fission product mass separator OSTIS at the Institut Laue-Langevin. Gamma data were recorded in an event-by-event mode and the coincidence results enable a decay scheme with 52 levels up to 5.8 MeV to be established. Directional correlation measurements were made on 14 direct cascades and 11 skip cascades, all in coincidence with the 21+ to 01+ ground state transition. Definite spin assignments were made for 14 levels and tentative assignments for 5 levels, with multipole mixing ratios being extracted where applicable. In addition, approximate log ft values were calculated for all the beta -fed levels and these, together with the relevant modes of decay, were used as a bias for tentative assignments for all but two of the levels not studied using the correlation technique. The experimental data for the neutron-rich barium isotopes 140-146Ba have been fitted using IBM-2 and the 2+ level at 1994 keV in 140Ba is identified as a mixed-symmetry state.

Perturbed γ-γ directional correlation measurements of 111mCd in a study of binding of Cd to plant cell walls

Measurements of the perturbation of the directional correlation of the 150 and 247 keV γ-rays of 111 m Cd was applied in a study of the behaviour of Cd in equilibrium with plant cells. As the overall perturbation factor reflects the degree of binding of Cd to the plant cell-wall the technique makes it possible to distinguish between absorbed and tissue bound Cd, whereas common radiotracer methods fail in this. The results show that the measurement of perturbed directional correlations is a promising method for studying trace element behaviour in equilibrium systems and intact organisms.

Multipole mixing ratios in the decay of 133ba from triple-γ directional correlation measurements

The multipole mixing ratios of the 53.17 and 302.85 keV transitions in 133Cs are measured through γ → γ → γ angular correlation experiments using one NaI(Tl) and two Ge(Li) detectors. Angular correlations for the cascades 276.40 keV → 79.63 keV ( θ variable) → 81.00 keV, 276.40 keV → 79.63 keV → 81.00 keV ( θ variable), and 53.17 keV → 302.85 keV → 81.00 keV ( θ variable) were investigated. The data were analyzed assuming the presently accepted J π sequence of 7 2 +, 5 2 +, 5 2 +, 3 2 +, and 1 2 + for the ground state and the 81.00, 160.63, 383.82, and 437.00 keV levels in 133Cs, respectively, and taking the 276.40 keV transition to be pure E2, the 81.00 keV transition to be M1 + 2.8% E2, and the 53.17 keV transition to be M1 + 1.0% E2. The multipole mixing ratios σ are determined to be + 0.171 −0.050 +0.051 for tne 79.63 keV transition and + 0.022 for the 302.85 keV transition. Phases of the mixing ratios of the 81.00, 79.63, and 302.85 keV transitions are adopted after a critical analysis of the data. The present experiment has determined the mixing ratios, along with the phases, free of errors due to angle-dependent Compton distributions of interfering γ-ray cascades.

Directional correlation measurements for gamma transitions in 127Te.

The directional correlation of coincident \ensuremath{\gamma} transitions in $^{127}\mathrm{Te}$ has been measured following the ${\ensuremath{\beta}}^{\mathrm{\ensuremath{-}}}$ decay of $^{127}\mathrm{Sb}$ (${T}_{1/2}$=3.9 d) using Ge(Li)-Ge(Li) and Ge(Li)-NaI(T1) gamma spectrometers. Measurements have been carried out for 14 gamma cascades resulting in the determination of multipole mixing ratios \ensuremath{\delta}(E2/M1) for 15 \ensuremath{\gamma} transitions. The present results permitted a definite spin assignment of (7/2) for the 785 keV level and confirmation of several previous assignments to other levels in $^{127}\mathrm{Te}$. The g factor of the 340 keV (${(9/2)}^{\mathrm{\ensuremath{-}}}$) level has also been measured using the integral perturbed angular correlation method in the hyperfine magnetic field of a Te in Ni matrix. The results of the g factor as well as the mixing ratio for the 252 keV (${(9/2)}^{\mathrm{\ensuremath{-}}}$\ensuremath{\rightarrow}${(11/2)}^{\mathrm{\ensuremath{-}}}$) transition support the earlier interpretation of this state as an anomalous coupling state.

Levels and transitions in124Te following thermal-neutron capture by123Te and the beta decay of oriented124Sb

Levels and gamma -ray transitions in 124Te have been studied using the techniques of directional correlation and nuclear orientation. Directional correlation measurements were performed on the gamma -rays observed following thermal-neutron capture by 123Te and the selection of several coincidence gates has allowed a comprehensive level scheme to be produced. The spins of 15 levels have been proposed from the directional correlation results and multiple mixing ratios have been extracted for 8 of the most intense transitions. Directional distribution measurements have been performed on the gamma radiation observed following the beta decay of oriented 124Sb. The orientation was obtained by diffusing the antimony into iron and cooling to 6.5 mK. The observed anisotropies in the gamma -radiation patterns have allowed 3 spin assignments to be made and 14 multipole mixing ratios to be extracted. The levels in 124Te are discussed in terms of the simple vibrational phonon and interacting boson models. It is shown that 124Te is a new example of O(6) nuclear symmetry within the boson model.

Gamma-gamma directional correlation measurements in144Nd

Gamma-gamma directional correlations have been measured for cascades in 144Nd following thermal-neutron capture by 143Nd. Unique multipole mixing ratios have been assigned to 12 transitions. Coincidence relations established from 18 coincidence gates have enabled an extensive decay scheme to be constructed. The results are compared with the predictions of the interacting boson approximation and some agreement is found. The 2+ assignment to the 1560 keV state is confirmed, which is in conflict with existing averaged resonance capture data.

Nuclear structure of the low lying levels ofEu147fromγ−γdirectional correlation measurements onEu147

The nuclear structure of the low lying levels of the transitional nucleus /sup 147/Eu, from /sup 147/Gd decay, has been investigated by ..gamma..-..gamma.. directional correlation experiments using a Ge(Li)-Ge(Li) fast coincidence arrangement. From the measurements on the 396-229.3, 549.5-229.3, 632.8-229.3, 766.0-229.3, 893.4-229.3, 1006.6-229.3, 1131.0-229.3, 1325.1-229.3, 1587.4-229.3, 240.6-370, 249.2-370, and 559.1-370 keV cascades, spin-parity assignments of (5/2)/sup +/, (7/2)/sup +/, (11/2)/sup -/, (7/2)/sup +/, (7/2)/sup +/, (9/2)/sup -/, (7/2)/sup +/, (7/2)/sup -/, (7/2)/sup -/, (9/2)/sup -/, (9/2)/sup -/, and (5/2)/sup +/ have been made to the ground, 229.3, 625.3, 778.2, 861.7, 995.3, 1122.9, 1235.9, 1244.5, 1360.3, 1554.5, and 1816.6 keV states of /sup 147/Eu, respectively. These spin-parity assignments are unique since they are measured by different cascade branchings. The results have been discussed and compared with previous works.

Frequency dependence of laser light fluctuations

The equations of motion for an inhomogeneously broadened laser operating off resonance in the neighborhood of threshold are solved. It is shown that the effects of detuning cannot be described just by a frequency-dependent laser pump parameter, but that the laser characteristics are modified in other ways also. The relative intensity fluctuations and the correlation time of the laser are calculated as a function of mean intensity and frequency, and it is shown that both are affected by detuning. These theoretical conclusions are then confirmed quantitatively by direct photoelectric counting and two-time correlation measurements of a He:Ne laser.

Gamma-gamma directional correlation measurements in146Nd following thermal-neutron capture

The directional correlations of cascade gamma rays in 146Nd formed following thermal-neutron capture have been measured. The coincidence information allows the authors to extend the decay scheme while the correlation data provide unique spin-parity assignments to many levels and also the multipolarity of 25 transitions. The experiment also indicates several levels that should have been seen in the neutron averaged resonance capture experiment if the primary gamma rays were dipole. The data are examined within the framework of the IBA model.

Nature of the 153 and 270 keV Transitons in119Sb from119mTe

The 153 and 270 keV transitions in 119 Sb have been investigated for the presence of any anomalous conversion through conversion electron intensity and conversion-electron gamma and gamma-gamma directional correlation measurements. The resulting subshell ratios and particle parameters have been analysed for the accurate determination of mixing ratios for the transitions. The results are δ 153 =±0.0025 and δ 270 =0.10± 0.03 0.20 . The conversion process has been found to be normal in both cases.

Gamma-Gamma Directional Correlation in the Decay of 168Tm

Time-integral and time-differential gamma-gamma directional correlation measurements were performed for cascades in 168 Er populated from the decay of 168 Tm (90d.). The mixing parameters of most of the intense gamma-rays have been determined more precisely than ever. Some ambiguities concerning to the directional correlation coefficients of the 447–198 keV and 447–830 keV cascades were well removed. The directional correlation coefficients of these cascades were determined as A 22 =0.009 ±0.003 and -0.067 ±0.008, respectively, and A 44 ≈0 for both. The mixing parameters of the 198-, 447- and 830-keV gamma-rays were determined as δ(198)=0.13 ±0.02, δ(447)=0.09 ±0.01 and δ(830)=0.05 ±0.03, respectively. The transition probabilities of the gamma-rays deexciting the 1094-keV level are deduced on the basis of this work.

Structure ofTc94

The level structure and decay properties of levels in $^{94}\mathrm{Tc}$ up to 2307 keV of excitation have been investigated via measurements of excitation functions of singles $\ensuremath{\gamma}$ rays and via $n\ensuremath{\gamma}$- and $\ensuremath{\gamma}\ensuremath{\gamma}$-coincidence experiments following the $^{94}\mathrm{Mo}$ ($p$,$n\ensuremath{\gamma}$) reaction with proton energies between 5.0 and 8.0 MeV. From these experiments and from high resolution singles energy and directional-correlation measurements an extended decay scheme has been obtained which included 42 levels in $^{94}\mathrm{Tc}$ and incorporated 180 $\ensuremath{\gamma}$ rays. New levels at 797.9 (${2}^{\ensuremath{-}}$), 823.2(${2}^{+}$), 917.7(${3}^{+}$), 926.3(${4}^{+}$), 953.5(${3}^{\ensuremath{-}}$), 1045.1(${2}^{+}$), 1178.4(${2}^{\ensuremath{-}}$,${3}^{\ensuremath{-}}$), 1263.9(${3}^{+}$), 1314.1(${4}^{(\ensuremath{-})}$), 1351.7(${3}^{\ensuremath{-}}$), 1364.9(${2}^{+}$), 1394.2(${3}^{\ensuremath{-}}$), 1406.8(${3}^{+}$), 1429.3(${1}^{+}$), 1540.0(${3}^{+}$), 1659.9, 1679.0, 1778.4, 1856.8, 1865.2, 1884.0, 1973.5, 2002.1, 2094.4, 2131.8, 2167.0, 2208.2, 2213.5, 2241.6, 2264.4, 2267.8, and 2306.6 keV with the assigned ${J}^{\ensuremath{\pi}}$ values in parentheses were postulated. The singles directional correlations for many transitions provided (i) reliable branching ratios, (ii) ${J}^{\ensuremath{\pi}}$ assignments, and (iii) multipole mixing ratios from analysis of the correlations via the compound statistical theory for nuclear reactions. Lifetimes for 18 states in $^{94}\mathrm{Tc}$ were obtained by the Doppler-shift-attenuation method via the $^{94}\mathrm{Mo}$($p$,$n\ensuremath{\gamma}$) reaction at 7.2 MeV. The lifetimes were extracted from singles spectra taken in the presence of standards at eight angles between 0\ifmmode^\circ\else\textdegree\fi{} and 110\ifmmode^\circ\else\textdegree\fi{} to the beam direction by employing a centroid shift analysis of the data. For a good number of transitions in $^{94}\mathrm{Tc}$ values or limits for $B(E1)$, $B(E2)$, and $B(M1)$ were obtained. The positive-parity levels up to 1.711 MeV of excitation and their decay properties were calculated in the shell-model framework and are compared with the corresponding experimental quantities.NUCLEAR REACTIONS $^{94}\mathrm{Mo}$($p$,$n\ensuremath{\gamma}$) $^{94}\mathrm{Tc}$, ${E}_{p}=5.0\ensuremath{-}8.0$ MeV, enriched targets. Measured ${E}_{\ensuremath{\gamma}}$, ${I}_{\ensuremath{\gamma}}$, ${I}_{\ensuremath{\gamma}}(\ensuremath{\theta})$, $\ensuremath{\sigma}(\mathrm{Ep})$, $\ensuremath{\Delta}E\ensuremath{\gamma}(\ensuremath{\tau})$, $\ensuremath{\gamma}\ensuremath{-}\ensuremath{\gamma}$ coin, $n\ensuremath{-}\ensuremath{\gamma}$ coin, deduced $^{94}\mathrm{Tc}$ levels, thresholds, branching ratios, $\ensuremath{\tau}$, $\ensuremath{\delta}(\frac{E2}{M1})$, $B(E2)$, $B(M1)$, and $B(E1)$ values, Ge(Li) detectors, NE-213 scintillator detector. Calculated $^{94}\mathrm{Tc}$ positive-parity levels, $B(E2)$, $B(M1)$, $\ensuremath{\tau}$, and branching ratios.

New aspects of unsteady couette flow

A recent extension of the recurrence-rate correlation technique of Erdmann and Gellert has been used to measure fluctuating cellular flows between concentric cylinders with the inner cylinder rotating. The length of the fluid-filled annulus was smaller than in most previous experiments of this kind. Direct velocity correlation measurements have revealed unexpected features in the development of these flows with increasing Reynolds number. The transition process was found to retain temporal order to a greater extent than indicated by many previous observations.

Gamma-gamma directional correlation measurements in 162,164Dy following thermal neutron capture

Gamma-gamma directional correlation measurements in ^162,164Dy following thermal neutron capture

Level Structure of 140Ce From The Decay of 140La

The level structure of 140 Ce has been studied in detail in the present work. The energies and relative intensities of 37 gamma rays following the β - decay of 140 La have been measured with a high precision. A new gamma ray has been observed at 1303.3 keV energy and has been placed between 2899.5 and 1596.17 keV levels of 140 Ce. Also, a new level has been proposed at 3000.7 keV in order to fit 1097.2 and 1404.9 keV gamma rays in the level scheme of 140 Ce. All but two gamma rays with energies 1045.0 and 1924.4 keV have been placed in the decay scheme. In addition γ-γ angular correlation measurements have been carried out on nine cascades. Spin assignments of 4 + and 1 + have been confirmed to the levels at 2515.71 and 2547.15 keV from the present directional correlation measurements. Also, multipole mixing ratios in the 329, 432, 487, 752, 816, 868, 919, 925 and 951 keV γ-transitions have been measured.