Quantum Interference of Coulomb Interaction and Disorder: Phase Shift of Friedel Oscillations and an Instability of the Fermi Sea

We investigate the influence of interference between Coulomb interaction and impurity scattering on the static electronic response $\chi (0,q)$ in disordered metals to leading order in the effective Coulomb interaction. When the transport relaxation time $\tau _{tr}$ is much shorter than the quasiparticle life time, we find a \mbox{sgn}(2p_F-q)/\sqrt{|2p_F-q|} divergence of the polarization function at the Fermi surface ($q=2p_F$). It causes a phase shift of the Friedel oscillations as well as an enhancement of their amplitude. Our results are consistent with experiments and may be relevant for understanding the stability of the amorphous state of certain alloys against crystallization.Comment: 11 pages, 4 PostScript figures appended as a self-extracting tar archive; includes output instruction

1986 Bluestone

The Bluestone is the yearbook of James Madison University.https://commons.lib.jmu.edu/allyearbooks/1079/thumbnail.jp

Influence of Counselor Gender and Client Age on Selected Clinical Ratings of Simulated Vignettes

Applied Behavioral Studie

Distribution of Imipramine, Desipramine and Their Principal Metabolites Between Plasma, Red Blood Cells and Brain in Humans and Animal Models

An HPLC prodecure was developed for the simultaneous measurement of imipramine (IMP), desipramine (DMI), desmethyl desipramine (DMD), 2-hydroxyimipramine (2HI) and 2-hydroxydesipramine (2HD) in human, rat and rabbit blood and brain specimens. The HPLC results were validated by comparison to an established GC-MS method. DMD is a minor metabolite of IMP and DMD in humans. 2HI is a minor metabolite of IMP in most humans. 2HD reaches appreciable concentrations in blood in humans treated with DMI and IMP. Plasma and RBC concentrations of IMP and DMI were compared to improvement in depression in patients treated with IMP. No good correlation was found. Plasma and RBC concentrations of DMI were compared to improvement in depression in patients treated with DMI. Plasma concentrations (r = -0.750, p \u3c .01) and RBC concentrations (r = -0.693, p \u3c .01) correlated with improvement in depression. As plasma DMI increased past 400 ng/ml, the degree of improvement declined. In autopsy specimens from an IMP overdose, IMP, DMI, DMD, 2HI and 2HD were all measured in whole blood and brain. In autopsy specimens from b/0 DMI overdoses, DMI, DMD and 2HD were all measured in whole blood and brain. The brain to blood ratios in all cases for IMP and DMI were significantly higher than the brain to blood ratio of 2HD, the most polar metabolite. This finding indicates that 2HD has restricted entry into the brain compared to IMP and DMI. The distribution of 2HD between plasma and brain was studied in rats. The mean brain to plasma ratio for DMI was 5.87 and for 2HD it was 0.067. Therefore, in rats 2HD has limited access into brain from blood compared to DMI. In rat studies, both plasma and RBC concentrations of DMI correlated well with brain DMI concentrations. In humans and rats, the plasma to RBC ratios for IMP and DMI are significantly different. IMP has greater affinity for plasma than RBCs. DMI is the reverse, having greater affinity for RBCs than plasma. As indicated, for DMI treated patients, plasma DMI concentrations correlated slightly better than RBC DMI concentrations to patient improvement in depression

Influence of Client Age and the Professional Discipline of the Therapist on Selected Clinical Judgements

Applied Behavioral Studie

EFFECTS OF CARBAMYLCHOLINE AND ATROPINE ON INCORPORATION IN VIVO OF INTRACISTERNALLY INJECTED HP1 INTO PHOSPHOLIPIDS OF RAT BRAIN1

Effects of carbamylcholine and atropine on incorporation in vivo of intracisternally injected HP into phospholipids of rat brain