A Unified Theoretical Description of the Thermodynamical Properties of Spin Crossover with Magnetic Interactions

After the discovery of the phenomena of light-induced excited spin state trapping (LIESST), the functional properties of metal complexes have been studied intensively. Among them, cooperative phenomena involving low spin-high spin (spin-crossover) transition and magnetic ordering have attracted interests, and it has become necessary to formulate a unified description of both phenomena. In this work, we propose a model in which they can be treated simultaneously by extending the Wajnflasz-Pick model including a magnetic interaction. We found that this new model is equivalent to Blume-Emery-Griffiths (BEG) Hamiltonian with degenerate levels. This model provides a unified description of the thermodynamic properties associated with various types of systems, such as spin-crossover (SC) solids and Prussian blue analogues (PBA). Here, the high spin fraction and the magnetization are the order parameters describing the cooperative phenomena of the model. We present several typical temperature dependences of the order parameters and we determine the phase diagram of the system using the mean-field theory and Monte Carlo simulations. We found that the magnetic interaction drives the SC transition leading to re-entrant magnetic and first-order SC transitions.Comment: 30pages, 11figure

Direct observation of low frequency confined acoustic phonons in silver nanoparticles: Terahertz time domain spectroscopy

Terahertz time domain spectroscopy has been used to study low frequency confined acoustic phonons of silver nanoparticles embedded in poly (vinyl alcohol) I. INTORDUCTION Confined acoustic phonons in nanoparticles are fingerprints of their shape and size. The frequencies of these phonon modes are proportional to longitudinal/transverse sound velocity in the material and inversely proportional to the size of the nanoparticles. These modes have been studied extensively by low frequency Raman spectroscopy In this paper, we report on the observation of two confined acoustic phonon modes with frequency ~ 0.60 THz and ~ 2.12 THz in silver nanoparticles of average diameter ~ 3.7 nm 3 embedded in poly(vinyl alcohol) (PVA) matrix by using THz-TDS. These observed frequencies are compared with the estimated frequencies of the spheroidal and the toroidal vibrational modes of a free elastic sphere in the Lamb's model II. EXPERIMENTAL The polymer embedded silver nanoparticle film (Ag-PVA) was cast from the mixture of aqueous solutions of PVA and high purity silver nitrate (AgNO 3 ) (both purchased from Aldrich chemicals). Solution of PVA was obtained by adding 3 gm of granular PVA in 30 ml of deionized water followed by continuous heating at 90 0 C and stirring for one hour. 5 mg of In the THz-TDS we have used photoconductive emitter and detector (EKSPLA), both driven by 100 fs laser pulses with central wavelength at 800 nm from a 76 MHz Ti:sapphire laser. The set-up generates THz radiation in the spectral bandwidth of 0.1 to 2.5 THz with good signal to noise ratio of ~ 10 3 at 0.8 THz. III. RESULTS AND DISCUSSION The time domain electric fields, E s (t) and E r (t), associated with the THz pulse, recorded with and without the film are shown in where A(ω) is the amplitude and φ(ω) is the phase of the transmission coefficient. The spectral transmission coefficient of an optically thin film can be written as Here ω k /2π is the resonance frequency, Γ k /2π is the spectral width, F k is the oscillator strength, and ∞ ε is the high frequency dielectric constant. The solid lines in Figs. 2(b) and 2(c) are the fits with fitting parameters given in [27]. The other two resonance bands centered at ~ 0.6 THz and ~ 2.12 THz are attributed to the 6 confined acoustic phonons in silver nanoparticles as discussed below. We note that the large spectral width of ~ 0.4 THz of these observed phonon modes could possibly be due to the large size distribution of the nanoparticles. A. Confined acoustic phonons in silver nanoparticles The vibrational motion of a homogeneous elastic sphere with free surface has been theoretically studied by Lamb are infrared active 7 The lowest order (m = 0) and a few higher order (m ≥ 1) Raman active, spheroidal radial (l = 0) and quadrupolar (l = 2) modes have been routinely observed either by Raman spectroscopy [40] using various models for silver nanoparticles embedded in a glass matrix also showed that the mode frequencies blue-shift up-to ~ 10% as compared to those obtained using a free sphere model. Our present experimental observation of vibrational modes of silver nanoparticles at frequencies of ~ 0.6 THz and ~ 2.12 THz have a broad spectral width of ~ 0.4 THz due to the broad particle size distribution and hence free sphere model can suffice. Theoretical investigation of the Raman and infrared activity along with the comparative study of absorption and scattering cross-section of various possible modes is needed for quantitative understanding of the observed modes. IV. CONCLUSIONS In summary, we have studied the terahertz frequency response of silver nanoparticles embedded in a PVA matrix. For the first time, we have observed the confined acoustic phonons in silver nanoparticles by measuring the real and imaginary parts of the dielectric function of the nanoparticle-doped polymer film using THz-TDS. The observed phonons with frequency 0.6 and 2.12 THz are attributed to the spheroidal and toroidal vibrational modes. The LAM associated with the crystalline lamellae in PVA has been observed at frequency 1.11 THz. Our experiments demonstrate the use of THz-TDS as complementary technique to Raman scattering to characterize the nanoparticles. We note that the phonons observed in the THz-TDS are the equilibrium phonons of the system. The next step will be to study the time evolution of these 9 modes of nanoparticles once created coherently in the ISRS by using an optical-pump. The THz absorption spectrum of the nanoparticles is measured with and without the pump as a function of time-delay between the optical-pump pulse and the THz-probe pulse in an optical-pump THzprobe experiment. It is possible that in the THz spectrum new modes can appear due to the pump excitation induced infrared activity of certain modes. ACKNOWLEDGEMENT

Simple scoring system to predict in-hospital mortality after surgery for infective endocarditis

BACKGROUND: Aspecific scoring systems are used to predict the risk of death postsurgery in patients with infective endocarditis (IE). The purpose of the present study was both to analyze the risk factors for in-hospital death, which complicates surgery for IE, and to create a mortality risk score based on the results of this analysis. METHODS AND RESULTS: Outcomes of 361 consecutive patients (mean age, 59.1\ub115.4 years) who had undergone surgery for IE in 8 European centers of cardiac surgery were recorded prospectively, and a risk factor analysis (multivariable logistic regression) for in-hospital death was performed. The discriminatory power of a new predictive scoring system was assessed with the receiver operating characteristic curve analysis. Score validation procedures were carried out. Fifty-six (15.5%) patients died postsurgery. BMI >27 kg/m2 (odds ratio [OR], 1.79; P=0.049), estimated glomerular filtration rate 55 mm Hg (OR, 1.78; P=0.032), and critical state (OR, 2.37; P=0.017) were independent predictors of in-hospital death. A scoring system was devised to predict in-hospital death postsurgery for IE (area under the receiver operating characteristic curve, 0.780; 95% CI, 0.734-0.822). The score performed better than 5 of 6 scoring systems for in-hospital death after cardiac surgery that were considered. CONCLUSIONS: A simple scoring system based on risk factors for in-hospital death was specifically created to predict mortality risk postsurgery in patients with IE

Linear and nonlinear second-order grating in poled glasses induced by two-photon absorption

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Linear and nonlinear second-order grating in poled glasses induced by two-photon absorption

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Computational modeling of second-harmonic generation by solution of full-wave vector Maxwell equations

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Linear and nonlinear second-order grating in poled glasses induced by two-photon absorption

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Static and dynamic profile of the electric field within the bulk of fused silica glass during and after thermal poling

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Computational modeling of second-harmonic generation by solution of full-wave vector Maxwell equations

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