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Zeeman energy level diagram for the iV 1 level ofpam- l2 in the flu, v 1 state, and the transitions responsible for the spectrum shown in figure 11.15.

Zeeman energy level diagram for the N 1 level of para- H2 in the 3nu, v 1 state, and the transitions responsible for the spectrum shown in figure 11.15.

Zeeman energy level diagrams for .

Zeeman energy levels for electron open S, proton H and fluorine F. The dominant relaxation mechanisms are S-H and H F .

Zeeman energy levels for electron spin 5 and nuclear spin

Zeeman energy levels of atomic oxygen in the P states.

Zeeman energy levels of positronium in its ground state.

Zeeman field dependent trajectories of peak positirms in ESEEM spectra when P a. In this case the effective zero field splitting of the ml levels prevents crossing, and the peaks follow trajectories that resemble flattened half-parabolas. The behavira- of this class of nuclei is easily distinguished from the a P class .

Zeeman levels for A — 0 and 1 of NH and the observed far-infrared laser magnetic resonance transitions . These were recorded using four different FIR lines at 31.7615, 32.1466, 33.0822 and 33.1922 cm .

Zeeman levels for N 0 and 1 of NH 3E and the observed far-infrared laser magnetic resonance transitions . These were recorded using four different FIR lines at 31.7615, 32.1466, 33.0822 and 33.1922 cm-1.

Zeeman levels of an electron -hole pair in the presence of magnetic field. G, N, and n, designate generation rate, total number of pairs of electron and hole traps, and population of rth level, respectively. From Moiigaki .

Zeeman magnetization exchange plot for the peptide P3A-A2 fragments shown in

Zeeman multiplets of the 2i2—221 rotational transition of ethyleneoxide measured with AM 0 selection rule. The zero field transition frequency is marked by a dagger. The Stark lobes are pushed out of the frequency range shown in the figure by application of a sufficiently high square wave voltage to the Stark electrode

Zeeman Operator Energy Level Diagram for d1 and d4 Systems in C v Symmetry

Zeeman Operator Energy Level Diagram for d1 and d5 Systems in CMV Symmetry

Zeeman Operator Energy Level Diagrams for d1 and d9 Systems in Cxv Symmetry

Zeeman patterns

Zeeman patterns for two lines of U I The no-field lines are shown in the middle

Zeeman patterns, background

Zeeman profiles of a seawater sample 2. The char temperature was 550 C, and the atomisation temperature 1600 C. Source

Zeeman quantum beats for the resonance line in ytterbium

Zeeman quantum beats observed in the fluorescence of Yb atoms in a magnetic field after pulsed excitation at A 555.6 nm

Zeeman quantum beats observed in the fluorescence of Yb atoms in a magnetic field after pulsed excitation at A. 555.6nm

Zeeman spectra after calibration on the horizontal axis and peak assignments. The top part of the spectrum is the same as the one shown in

Zeeman spectra of samarium atoms. The applied magnetic field is 0, 115x10 , 224 x 10 and 352 x 10- T for respectively. The peaks represented by squares and circles correspond, respectively, to the transition of 1525,



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