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Giant low-field magnetocaloric effect in single-crystalline EuTi0.85Nb0.15O3 (2016)

S. Roy, N. Khan and P. Mandal

American Institute of Physics (AIP)

In: APL Materials

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Publication Date: 2016-02-02

Description: The magnetocaloric effect in ferromagnetic single crystal EuTi 0.85 Nb 0.15 O 3 has been investigated using magnetization and heat capacity measurements. EuTi 0.85 Nb 0.15 O 3 undergoes a continuous ferromagnetic phase transition at T C = 9.5 K due to the long range ordering of magnetic moments of Eu 2+ (4 f 7 ). With the application of magnetic field, the spin entropy is strongly suppressed and a giant magnetic entropy change is observed near T C . The values of entropy change Δ S m and adiabatic temperature change Δ T ad are as high as 51.3 J kg −1 K −1 and 22 K, respectively, for a field change of 0–9 T. The corresponding magnetic heating/cooling capacity is 700 J kg −1 . This compound also shows large magnetocaloric effect even at low magnetic fields. In particular, the values of Δ S m reach 14.7 and 23.8 J kg −1 K −1 for field changes of 0–1 T and 0–2 T, respectively. The low-field giant magnetocaloric effect, together with the absence of thermal and field hysteresis makes EuTi 0.85 Nb 0.15 O 3 a very promising candidate for low temperature magnetic refrigeration.

Electronic ISSN: 2166-532X

Topics: Mechanical Engineering, Materials Science, Production Engineering, Mining and Metallurgy, Traffic Engineering, Precision Mechanics

Published by American Institute of Physics (AIP)

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Optical modulation of light transmission in GaAs doping superlattices (1989)

Ruden, P. P. ; Lehman, J. A. ; Khan, N. ; [et al.]

[S.l.] : American Institute of Physics (AIP)

Journal of Applied Physics 65 (1989), S. 3293-3295

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ISSN: 1089-7550

Source: AIP Digital Archive

Topics: Physics

Notes: We report results of measurements of optically modulated optical transmittance of GaAs doping superlattices. The data extend over a spectral region of 1.39–1.58 eV. We find that the peak transmission modulation reaches 21% for a 2.6-μm-thick sample and an optical pump power density of 〈10 W/cm2 at room temperature. We interpret our data in the framework of a simple semiclassical model that includes the Franz–Keldysh effect both below and above the bulk GaAs band gap, as well as band filling and band shrinkage effects.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1063/1.342665

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Heat capacity measurements of sub-nanoliter volumes of liquids using bimaterial microchannel cantilevers (2016)

M. F. Khan, N. Miriyala, J. Lee, M. Hassanpourfard, A. Kumar and T. Thundat

American Institute of Physics (AIP)

In: Applied Physics Letters

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Publication Date: 2016-05-26

Description: Lab-on-a-Chip compatible techniques for thermal characterization of miniaturized volumes of liquid analytes are necessary in applications such as protein blotting, DNA melting, and drug development, where samples are either rare or volume-limited. We developed a closed-chamber calorimeter based on a bimaterial microchannel cantilever (BMC) for sub-nanoliter level thermal analysis. When the liquid-filled BMC is irradiated with infrared (IR) light at a specific wavelength, the IR absorption by the liquid analyte results in localized heat generation and the subsequent deflection of the BMC, due to a thermal expansion mismatch between the constituent materials. The time constant of the deflection, which is dependent upon the heat capacity of the liquid analyte, can be directly measured by recording the time-dependent bending of the BMC. We have used the BMC to quantitatively measure the heat capacity of five volatile organic compounds. With a deflection noise level of ∼10 nm and a signal-to-noise ratio of 68:1, the BMC offers a sensitivity of 30.5 ms/(J g −1 K −1 ) and a resolution of 23 mJ/(g K) for ∼150 pl liquid for heat capacity measurements. This technique can be used for small-scale thermal characterization of different chemical and biological samples.

Print ISSN: 0003-6951

Electronic ISSN: 1077-3118

Topics: Physics

Published by American Institute of Physics (AIP)

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Automated analysis of hot spot X-ray images at the National Ignition Facility (2016)

S. F. Khan, N. Izumi, S. Glenn, R. Tommasini, L. R. Benedetti, T. Ma, A. Pak, G. A. Kyrala, P. Springer, D. K. Bradley and R. P. J. Town

American Institute of Physics (AIP)

In: Review of Scientific Instruments

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Publication Date: 2016-09-03

Description: At the National Ignition Facility, the symmetry of the hot spot of imploding capsules is diagnosed by imaging the emitted x-rays using gated cameras and image plates. The symmetry of an implosion is an important factor in the yield generated from the resulting fusion process. The x-ray images are analyzed by decomposing the image intensity contours into Fourier and Legendre modes. This paper focuses on the additional protocols for the time-integrated shape analysis from image plates. For implosions with temperatures above ∼4 keV, the hard x-ray background can be utilized to infer the temperature of the hot spot.

Print ISSN: 0034-6748

Electronic ISSN: 1089-7623

Topics: Electrical Engineering, Measurement and Control Technology , Physics

Published by American Institute of Physics (AIP)

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