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Laser Control and Manipulation of Molecules #821

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An American Chemical Society Publication
Nuclear chemistry, photochemistry & radiation, Optics (light), Molecular Chemistry, Electron Microscopes & Microscopy, Optics, Laser Physics, Science, Lasers in chemistry, Science/Mathematics, Laser manipulation (Nuclear physics), Chemistry - Clinical, Chemistry - Organic, Science / Chemistry / Organic, Science / Chemistry / Physical & Theoretical, Science : Chemistry - Clinical, Science : Optics, Molecular dynamics, Chemistry - Physical & Theoretical, Congresses, Laser manipulation (Nucle
ContributionsA. D. Bandrauk (Editor), Y. Fujimura (Editor), R. J. Gordon (Editor)
The Physical Object
FormatHardcover
ID Numbers
Open LibraryOL8227088M
ISBN 100841237867
ISBN 139780841237865

Laser Control and Manipulation of Molecules # 1st Edition by A. Bandrauk (Editor), Y. Fujimura (Editor), R. Gordon (Editor) & 0 more4/5(1). This book details advances in the studies of chemical dynamics and photochemistry using emerging laser technologies.

It examines both theoretical and experimental advances in this field and includes such topics as efficient selectivity in chemical reactions, new pulse shaping techniques, and new tool for realistic control and manipulation of molecules. ISBN: OCLC Number: Description: xv, pages: illustrations ; 24 cm.

Contents: Coherent optimal control: -Controlling molecular motion: the molecule knows best / Herschel Rabitz --Variations on the theme of stimulated raman adiabatic passage: control of chemical reactions / Suhail P.

Shah, Vandana Kurkal, Stuart A. Rice --Laser control. Get this from a library. Laser control and manipulation of molecules.

[André D Bandrauk; Y Fujimura; R J Gordon;] -- Annotation This book details advances in the studies of chemical dynamics and photochemistry using emerging laser technologies. It examines both theoretical and experimental advances in this field.

Laser Manipulation of Cells and Tissues ties all these systems and studies together, describing all of the different kinds of research and practical/analytical applications of laser manipulation.

It also provides the reader with the basic information needed to actually build one’s own laser micro-manipulation Edition: 1. for cold molecules, Control of molecular orientation and molecular alignment, Manipulation of molecules by non-conservative forces, Ultracold molecules and ultracold chemistry, Controlled many-body phenomena, Entanglement of molecules and dipole arrays, and Stability of molecular systems in high-frequency super-intense laser fields.

Abstract. The dynamical behavior of \(\rm H_2^+\) in near-infrared, intense laser fields (I > 10 13 W cm −2 and λ > nm) was discussed on the basis of the results of accurate electronic and nuclear wave packet propagation obtained by the application of the dual transformation method.

Using “field-following” time-dependent (TD) adiabatic states defined as the eigenfunctions of Author: Hirohiko Kono, Katsunori Nakai, Manabu Kanno, Yukio Sato, Shiro Koseki, Tsuyoshi Kato, Yuichi Fujimu.

We demonstrate that a strong nonresonant nanosecond laser pulse can be used to align neutral molecules. Our technique, applicable to nonpolar as well as polar molecules, relies on the anisotropic interaction between the strong laser field and the induced dipole moment of the molecules.

Manipulation and Control of Molecular Beams. Laser spectroscopy of cold molecules. Advances in Physics: X1 (3), DOI: / Anne Cournol, Pierre Pillet, Hans Lignier, Daniel Comparat.

Laser Control and Manipulation of Molecules #821 book Manipulation of molecules with electromagnetic fields. Molecular PhysicsCited by: Quantum dynamics manipulation using optimal control theory in the presence of laser field noise Article (PDF Available) in Journal of Modern Optics 57(14).

Rather different problems can be lumped together under the general term 'laser control of atoms and molecules'. They include the laser selection of atomic and molecular velocities for the purpose of Doppler-free spectroscopy, laser control of the position and velocity of atoms (i.e.

laser trapping and cooling of atoms), and laser control of atomic and molecular processes Cited by: Find many great new & used options and get the best deals for ACS Symposium: Laser Control and Manipulation of Molecules No. (, Hardcover) at the best online prices at eBay.

Free shipping for many products. The authors expect that their techniques will enable trapping and manipulation of symmetric molecules such as H2+. Laser cooling and trapping of atoms and atomic ions has led to advances including Cited by: molecules are trapped in a (60) K deep ODT op-erating at nm with a density of 8(2) cm.

We directly demonstrate that laser cooling occurs in the presence of the trap light. Our approach is applica-ble to a large class of molecules including polyatomic species [5, 21] that cannot easily be assembled from ul-tracold atoms. A.D. Bandrauk, Y. Fujimura, R. Gordon (Eds.), Laser Control and Manipulation of Molecules, ACS symposium series, Washington, DC, v.

()Author: Andre D. Bandrauk, Szczepan Chelkowski, Gennady L. Yudin. Purchase Laser Manipulation of Atoms and Ions, Volume - 1st Edition. Print Book & E-Book. ISBNBook Edition: 1. Ultrafast state-selective laser control for vibrational dynamics of molecules State-selective manipulation of molecular dynamics and, in particular, localization of population at a pre- scribed vibrational level on a ps/fs timescale is a very promising line in the general field of laser by: Abstract.

In light matter interaction a ‘strong’ laser field will be defined differently depending on the process under investigation. In the context of this chapter a laser field is considered to be strong if the potential energy surfaces of the irradiated molecule or cluster are Cited by: 4.

“Space—the final frontier.” This preamble to a well-known television series captures the challenge encountered not only in space travel adventures, but also in the field of porous materials Cited by:   This important volume contains selected papers and extensive commentaries on laser trapping and manipulation of neutral particles using radiation pressure forces.

Such techniques apply to a variety of small particles, such as atoms, molecules, macroscopic dielectric particles, living cells, and organelles within cells. Coherent manipulation of atoms and molecules by sequential laser pulses Article in Advances in Atomic, Molecular, and Optical Physics.

Description Laser Control and Manipulation of Molecules #821 PDF

An eight-volume set of handbooks on graphene research and applications. This set features Volumes 1, 2, 3, 4, 5, 6, 7, and 8 of the Handbook of volume. acta physica slovaca vol. 58 No. 3, – June COHERENT MANIPULATIONS OF ATOMS USING LASER LIGHT Bruce W.

Shore1 Escondido Cir., Livermore, CAUSA Received 11 Julyaccepted 18 July The internal structure of a particle – an atom or other quantum system in which the excita.

Significant progress has been made in achieving experimental laser control of molecules due to advances in ultrafast laser technology utilizing femtosecond pulse shaping capabilities.

Details Laser Control and Manipulation of Molecules #821 PDF

In addition, the advent of few-cycle femtosecond as well as attosecond pulses has made possible observation and manipulation of electronic and nuclear motions. In this chapter, we review Cited by: 3. We demonstrate the combination of a rails and anchors microfluidic system with laser forcing to enable the creation of highly controllable 2D droplet arrays.

Water droplets residing in an oil phase can be pinned to anchor holes made in the base of a Cited by: Photonics (ISSN ; CODEN: PHOTC5) is an international scientific peer-reviewed open access journal on the science and technology of optics and photonics, published quarterly online by MDPI.

Open Access - free for readers, with article processing charges (APC) paid by authors or their institutions.; High Visibility: Covered by the Science Citation Index Expanded (SCIE.

4 1 Lasers: Fundamentals, Types, and Operations N N E 0 E E 1 E 3 E 0 E E 1 2 Fast decay Fast decay Fast decay Pumping Pumping Lasing Lasing (a) (b) Figure Energy level diagram for (a) three- and (b) four level laser systems.

N 1 to achieve the condition of population inversion between E 2 and E 1 at moderate pumping. Threshold Gain Coefficient for Lasing Laser. Laser manipulation of atoms and particles. Chu S.

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A variety of powerful techniques to control the position and velocity of neutral particles has been developed. As examples of this new ability, lasers have been used to construct a variety of traps, to cool atoms to temperatures below 3 x 10(-6) kelvin, and to create atomic fountains that may Cited by: In the past years, laser ablation synthesis in solution (LASiS) emerged as a reliable alternative to traditional chemical reduction methods for obtaining noble metal nanoparticles (NMNp).

LASiS is a “green” technique for the synthesis of stable NMNp in water or in organic solvents, which does not need stabilizing molecules or other so obtained NMNp are highly available.

Micromachines, an international, peer-reviewed Open Access journal. Dear Colleagues, We are pleased to announce a Special Issue of Micromachines dedicated to the latest research in optical trapping, to be titled “Optical Trapping and Manipulation: From Fundamentals to Applications” and scheduled for publication in In recognition of the broad impact of optical manipulation.

Laser processing of neuronal micro-environment: Engineering neuron-scaffold interactions. Engineering of neuronal scaffolds is gaining importance to reproduce neural circuits in vitro as well as in vivo to repair injuries, to locally deliver cells or molecules, and to promote regeneration.

Mimicking the extracellular physiological milieu remains a major challenge, because it is Cited by: 4.The release of gas molecules from the crystal lattice is distinctive for each compounds.

For example, some crystals tolerate a build-up of large gas bubbles within the crystals before cracking, whereas others release gas concurrently with light exposure.• Two pulse laser scheme for manipulation of torsion • Semi-classical model 3.

Results (proof-of-principle) • Testing theory vs. experiments • Proof of torsional manipulation 4. Perspectives • Application to molecular junctions • Time-resolved study of de-racemization 5. Summary and outlook 1. Laser induced alignment 2. Strategy to.