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Items: 1 to 20 of 55

1.

Quenching an expanding chiral condensate.

Bialas A, Czyz W, Gmyrek M.

Phys Rev D Part Fields. 1995 Apr 1;51(7):3739-3744. No abstract available.

PMID:
10018841
2.

Influence of chiral ionic liquids on stereoselective fluorescence quenching by photoinduced electron transfer in a naproxen dyad.

Bose S, Wijeratne AB, Thite A, Kraus GA, Armstrong DW, Petrich JW.

J Phys Chem B. 2009 Aug 6;113(31):10825-9. doi: 10.1021/jp904311b.

PMID:
19594143
3.

Synthesis of axially chiral benzamides utilizing tricarbonyl(arene)chromium complexes.

Koide H, Uemura M.

Chirality. 2000 Jun;12(5-6):352-9.

PMID:
10824151
4.

Inefficient crystal packing in chiral [Ru(phen)(3)](PF(6))(2) enables oxygen molecule quenching of the solid-state MLCT emission.

McGee KA, Mann KR.

J Am Chem Soc. 2009 Feb 11;131(5):1896-902. doi: 10.1021/ja8075605.

PMID:
19154111
6.
7.

Domain structure of a disoriented chiral condensate from a wavelet perspective.

Huang Z, Sarcevic I I, Thews R, Wang XN.

Phys Rev D Part Fields. 1996 Jul 1;54(1):750-758. No abstract available.

PMID:
10020539
8.

Isospin coherence and final-state scattering of a disoriented chiral condensate.

Huang Z, Suzuki M.

Phys Rev D Part Fields. 1995 Sep 1;52(5):R2610-R2613. No abstract available.

PMID:
10019542
9.

Quantum phenomenology for the disoriented chiral condensate.

Amado RD, Kogan II II.

Phys Rev D Part Fields. 1995 Jan 1;51(1):190-200. No abstract available.

PMID:
10018285
10.

Signals of a disoriented chiral condensate.

Huang Z, Suzuki M, Wang XN.

Phys Rev D Part Fields. 1994 Aug 1;50(3):2277-2281. No abstract available.

PMID:
10017856
11.

Dynamics of a disoriented chiral condensate.

Blaizot JP, Krzywicki A.

Phys Rev D Part Fields. 1994 Jul 1;50(1):442-446. No abstract available.

PMID:
10017541
12.

Cluster structure of disoriented chiral condensate in rapidity distribution.

Huang Z, Wang XN.

Phys Rev D Part Fields. 1994 May 1;49(9):R4335-R4338. No abstract available.

PMID:
10017511
13.

General classical solutions of the nonlinear sigma model and the pion charge distribution of disoriented chiral condensate.

Huang Z, Suzuki M.

Phys Rev D Part Fields. 1996 Jan 15;53(2):891-898. No abstract available.

PMID:
10020073
14.

Interplay between mass, volume, vacuum angle, and chiral condensate in N-flavor two-dimensional QED.

Hetrick JE, Hosotani Y, Iso S.

Phys Rev D Part Fields. 1996 Jun 15;53(12):7255-7259. No abstract available.

PMID:
10020014
15.
16.
17.

Applications of the static quenching of rhodamine B by carbon nanotubes.

Ahmad A, Kurkina T, Kern K, Balasubramanian K.

Chemphyschem. 2009 Sep 14;10(13):2251-5. doi: 10.1002/cphc.200900246.

PMID:
19630055
18.

Tuning and enhancing enantioselective quenching of calixarene hosts by chiral guest amines.

Lynam C, Jennings K, Nolan K, Kane P, McKervey MA, Diamond D.

Anal Chem. 2002 Jan 1;74(1):59-66.

PMID:
11795818
19.
20.

Critical Condensate Saturation in Porous Media.

Wang X, Mohanty KK.

J Colloid Interface Sci. 1999 Jun 15;214(2):416-426.

PMID:
10339383

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