Quantum averaging for driven systems with resonances

Abstract We discuss the effects of resonances in driven quantum systems within the context of quantum averaging techniques in the Floquet representation. We consider in particular iterative methods of KAM type and the extensions needed to take into account resonances. The approach consists in separating the coupling terms into resonant and nonresonant components at a given scale of time and intensity. The nonresonant part can be treated with perturbative techniques, which we formulate in terms of KAM-type unitary transformations that are close to the identity. These can be interpreted as averaging procedures with respect to the dynamics defined by effective uncoupled Hamiltonians. The reson…

State-selective chirped adiabatic passage on dynamically laser-aligned molecules

We show that rovibrational state selectivity can be achieved by chirped adiabatic passage of molecules that are adiabatically aligned by a nonresonant laser field. We develop the tools to design the appropriate frequency and amplitude modulations that allow us to select a given route in the Hilbert space that leads to a final complete excitation of the chosen state, by infrared or by Raman processes. This method allows us to select a given vibrational state in a well-defined rotational $J$ state.

Optimization of population transfer by adiabatic passage

We examine the adiabatic limit of population transfer in two-level models driven by a chirped laser field. We show that the nonadiabatic correction is minimized when the adiabatic eigenenergies associated to the dynamics are parallel. In the diagram of the difference of the eigenenergy surfaces as a function of the parameters, this corresponds to an adiabatic passage along a level line. The analytical arguments are based on the Dykhne-Davis-Pechukas treatment. We illustrate this behavior with various examples.

Dynamic in vivo Imaging of Microvasculature and Perfusion by Miniaturized Confocal Laser Microscopy

<i>Introduction:</i> Microvasculature and associated pathologies mandate dynamic imaging. We evaluated a novel miniaturized confocal laser scanning probe for in vivo visualization of blood vessels, blood flow, cell tracking and perfusion in both healthy rodents and disease models.<i> Methods:</i> The hand-held confocal microscopy system allowed a 500- to 2,400-fold magnification at a dynamically variable imaging depth. Different intravital stains were used alone or in combination for tissue, nuclear, plasma and vascular endothelial cell staining and for blood flow visualization, and targeted staining for individual cell populations. <i>Results:</i> Precis…

Laser — Klinische Anwendung

Der Neodym-YAG-Laser mit einer Emissionswellenlange von 1,06 μm besitzt eine hohe Penetrationstiefe ins Gewebe von ca. 5 mm mit einem homogenen Koagulationssaum. Bereits 1973 wurden von Mussiggang u. Mitarb. [3] Hautschnitte und Resektionen an Nieren, Leber und Milz im Tierversuch durchgefuhrt, die jedoch offensichtlich wegen der damals zur Verfugung stehenden Laserleistung von nur ca. 50 Watt nicht uberzeugend verliefen. Nach dem nunmehr der Neodym-YAG-Laser in der Urologie (insbesondere in der Behandlung des Blasentumorleidens und bei pathologischen Veranderungen am auseren Genitale) und anderen Fachdisziplinen nach Verbesserung des Instrumentariums und einer hoheren Leistung bei zahlreic…

LAB-STEM CELLS

Abstracts of papers and posters safe handling of medicines

A multicenter randomized trial for quality of life evaluation by non-invasive intelligent tools during post-curative treatment follow-up for head and neck cancer: Clinical study protocol

Patients surviving head and neck cancer (HNC) suffer from high physical, psychological, and socioeconomic burdens. Achieving cancer-free survival with an optimal quality of life (QoL) is the primary goal for HNC patient management. So, maintaining lifelong surveillance is critical. An ambitious goal would be to carry this out through the advanced analysis of environmental, emotional, and behavioral data unobtrusively collected from mobile devices. The aim of this clinical trial is to reduce, with non-invasive tools (i.e., patients' mobile devices), the proportion of HNC survivors (i.e., having completed their curative treatment from 3 months to 10 years) experiencing a clinically relevant r…

CCDC 209078: Experimental Crystal Structure Determination

Related Article: F.Miklos, I.Kanizsai, S.Thomas, E.Kleinpeter, R.Sillanpaa, G.Stajer|2004|Heterocycles|63|63|doi:10.3987/COM-03-9916

CCDC 209077: Experimental Crystal Structure Determination

Related Article: F.Miklos, I.Kanizsai, S.Thomas, E.Kleinpeter, R.Sillanpaa, G.Stajer|2004|Heterocycles|63|63|doi:10.3987/COM-03-9916