S Park scite author profile

Ultrafast two dimensional infrared (2D-IR) vibrational echo spectroscopy has emerged as a powerful method for the study of molecular dynamics under thermal equilibrium conditions occurring on ultrafast time scales. Here, we describe experimental details of 2D-IR vibrational echo spectroscopy including the experimental setup, pulse sequence, heterodyne detection, and extraction of the mainly absorptive part of the 2D-IR spectrum. As an experimental example, the measurements of the hydrogen bond dynamics of neat water and water in a high concentration of NaBr solution are presented and compared. The experiments are performed on OD stretching vibration of dilute HOD in H2O to eliminate contributions from vibrational excitation transport. A new experimental observable for extracting dynamical information that yields the frequency-frequency correlation function is presented. The observable is the inverse of the center line slope (CLS) of the 2D spectrum, which varies from a maximum of 1 to 0 as spectral diffusion proceeds. The CLS is the inverse of the slope of the line that connects the maxima of the peaks of a series of cuts through the 2D spectrum that are parallel to the frequency axis associated with the first radiation field-matter interaction. Comparisons of the dynamics obtained from the data on water and the concentrated NaBr solutions show that the hydrogen bond dynamics of water around ions are much slower than in bulk water.

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Tunneling microscopy from 300 to 4.2 K

Elrod

Bryant

Lozanne

et al. 1986

IBM J. Res. & Dev.

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SU‐E‐J‐172: Bio‐Physical Effects of Patients Set‐Up Errors According to Whole Breast Irradiation Techniques

et al. 2015

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Purpose: The dose‐related effects of patient setup errors on biophysical indices were evaluated for conventional wedge (CW) and field‐in‐field (FIF) whole breast irradiation techniques. Methods: The treatment plans for 10 patients receiving whole left breast irradiation were retrospectively selected. Radiobiological and physical effects caused by dose variations were evaluated by shifting the isocenters and gantry angles of the treatment plans. Dose‐volume histograms of the planning target volume (PTV), heart, and lungs were generated, and conformity index (CI), homogeneity index (HI), tumor control probability (TCP), and normal tissue complication probability (NTCP) were determined. Results: For “isocenter shift plan” with posterior direction, the D95 of the PTV decreased by approximately 15% and the TCP of the PTV decreased by approximately 50% for the FIF technique and by 40% for the CW; however, the NTCPs of the lungs and heart increased by about 13% and 1%, respectively, for both techniques. Increasing the gantry angle decreased the TCPs of the PTV by 24.4% (CW) and by 34% (FIF). The NTCPs for the two techniques differed by only 3%. In case of CW, the CIs and HIs were much higher than that of the FIF in all cases. It had a significant difference between two techniques (p<0.01). According to our results, however, the FIF had more sensitive response by set up errors rather than CW in bio‐physical aspects. Conclusions: The radiobiological‐based analysis can detect significant dosimetric errors then, can provide a practical patient quality assurance method to guide the radiobiological and physical effects.

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Rutin Ameliorates Neutrophilic Oxidative Stress-Induced Acute Pulmonary Edema in Rats Given IL-1 Intratracheally.

Kim

Lee

Hyun

et al. 2009

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S Park

Ultrafast 2D-IR vibrational echo spectroscopy: a probe of molecular dynamics

Tunneling microscopy from 300 to 4.2 K

SU‐E‐J‐172: Bio‐Physical Effects of Patients Set‐Up Errors According to Whole Breast Irradiation Techniques

Rutin Ameliorates Neutrophilic Oxidative Stress-Induced Acute Pulmonary Edema in Rats Given IL-1 Intratracheally.

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