By Stuart A. Rice, Aaron R. Dinner
The Advances in Chemical Physics series—the leading edge of study in chemical physics
The Advances in Chemical Physics sequence offers the chemical physics and actual chemistry fields with a discussion board for severe, authoritative reviews of advances in each quarter of the self-discipline. jam-packed with state of the art examine stated in a cohesive demeanour now not chanced on in different places within the literature, each one quantity of the Advances in Chemical Physics sequence bargains contributions from across the world popular chemists and serves because the excellent complement to any complicated graduate category dedicated to the learn of chemical physics.
This quantity explores:
keep an eye on of Quantum Phenomena (Constantin Brif, Raj Chakrabarti, and Herschel Rabitz)
Crowded fees in Ion Channels (Bob Eisenberg)
Colloidal Crystallization among and 3 Dimensions (H. Lowen, E.C. Oguz, L. Assoud, and R. Messina)
Statistical Mechanics of drinks and Fluids in Curved house (Gilles Tarjus, FranCois Sausset, and Pascal Viot)
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Extra resources for Advances in Chemical Physics, Volume 148
AFC of Photodissociation Reactions in Molecules A long-standing goal of photochemistry is selective control of molecular fragmentation. During the last decade, AFC employing shaped femtosecond laser pulses has achieved signiﬁcant successes toward meeting this goal [8, 9, 12]. Selective quantum control of photodissociation reactions in molecules using AFC was ﬁrst demonstrated by Gerber and coworkers in 1998 . They studied photodissociation of an organometallic complex and employed AFC to maximize and minimize the branching ratio of two fragmentation products.
Coherent control mechanisms were also identiﬁed in a number of other recent AFC experiments that optimized molecular electronic excitations in the liquid phase [157, 450]. C. AFC of Multiphoton Ionization in Molecules The use of polarization-shaped femtosecond laser pulses can signiﬁcantly enhance the level of control over multiphoton ionization in molecules. In 2004, Brixner et al.  demonstrated that a suitably polarization-shaped laser pulse increased the photoionization yield in K2 beyond that obtained with an optimally shaped linearly polarized laser pulse.
Other examples of structural transformations in complex molecules include ring opening in cyclohexadiene along with isomerization as well as cyclization reactions in cis-stilbene. Carroll et al. [541, 542] demonstrated AFC of the photoinduced ring-opening reaction of 1,3-cyclohexadiene (CHD) to form 1,3,5-cishexatriene. Kotur et al.  used AFC with shaped ultrafast laser pulses in the deep UV to control the ring-opening reaction of CHD to form 1,3,5-hexatriene. Greenﬁeld et al.  performed AFC of the photoisomerization and cyclization reactions in cis-stilbene dissolved in n-hexane.
Advances in Chemical Physics, Volume 148 by Stuart A. Rice, Aaron R. Dinner