Characterisation of granule structure and strength made in a high shear granulator

Rahmanian, Nejat, Ghadiri, M., Jia, X., Stepanek, F.

January 2009

Results of a study of the influence of impeller speed on the strength, structure and morphology of granules produced in a type of high shear mixer granulators are reported. Calcium carbonate particles (Durcal 65) have been granulated in a Cyclomix with a capacity of 5 L. An aqueous solution of polyethylene glycol was used as the binder. The granules produced have been dried and their structure visualized using X-ray micro-tomography equipment, Nanotom, with a resolution of less than 1 μm. It is shown that the operation of the granulator at high impeller tip speeds produces granules with a higher strength and lower porosity than those produced at medium and low impeller speeds. Two different granule micro-structures and morphologies are produced at high and low impeller speeds. Structure descriptors such as phase volume fraction (as representative of porosity), chord length distribution and auto-correlation function (as indices of homogeneity of structure) are used to quantify the internal structure of granules in 3D, which in turn affects the granule strength.

A CFD Model of Mixing in a Microfluidic Device for Space Medicine Technology

McKay, Terri L.

16 May 2011

No description available.

Biomedical Engineering

microfluidics

microflow

micromixer

passive mixer

dean flow

microchannel flow

A Poly-phased, Time-interleaved Radio Frequency Digital-to-analog Converter (Poly-TI-RF-DAC)

Patel, Vipul J.

January 2017

No description available.

Electrical Engineering

Communications

DACs

Frequency-agile

Mixer

Poly-phase

Radar

RF-DACs

SDR

Transmitter

Design of a CMOS RF front end receiver in 0.18μm technology

Sastry, Vishwas Kudur

09 September 2008

No description available.

Communication

Electrical Engineering

CMOS

RF Receiver

LNA

MIxer

VCO

Front End

Low IF Receiver

Wideband Automatic Gain Control Design in 130 nm CMOS Process for Wireless Receiver Applications

Strzelecki, Joseph Benito

28 August 2015

No description available.

Electrical Engineering

Automatic Gain Control

CMOS

VLSI

Analog

AGC

Mixer

receiver

transceiver

amplifier

NUMERICAL INVESTIGATIONS OF THE EFFECT OF FILL FACTOR IN AN INTERNAL MIXER FOR TIRE MANUFACTURING PROCESS

Dhakal, Pashupati

06 October 2016

No description available.

Mechanical Engineering

A Wireless, Fully-Passive Recorder for Medical Applications

Lee, Cedric W.

January 2016

No description available.

Electrical Engineering

Electromagnetics

neurosensing

apdp

subharmonic mixer

fully-passive

wireless

implant

neurosensor

Digital and Analog Applications of Double Gate Mosfets

Varadharajan, Swetha

January 2005

No description available.

Double gate MOSFET

DGMOSFET

DGMOS

dual gate

mixer

PTL

pass gate logic

reconfigurable

A CMOS front end for high linearity zero-if WCDMA receiver

Alam, Shaikh Md. Khairul

30 November 2006

No description available.

Analog RF-CMOS

direct conversion

front end

LNA

mixer

receiver

UMTS

WCDMA

GROWTH AND STUDY OF MAGNESIUM DIBORIDE ULTRATHIN FILMS FOR THz SENSOR APPLICATION

Acharya, Narendra

January 2017

Thanks to high Tc of 40 K, high Jc of > 10^7 A.cm^-2, and no weak link behavior across the grain boundary in MgB2 material. This highest Tc among all conventional BCS superconductors, and better material properties of MgB2 compared to high Tc cuprate superconductors makes this material attractive for many applications including, but not limited to, power cables, Josephson junction based electronic devices, SRF cavities, THz sensors and single photon counters. Ultrathin superconducting films are a key element in various detectors utilized in remote sensing over a large part of the entire electromagnetic spectrum. The superconducting hot electron bolometer (HEB) mixer is a crucial detector for high-resolution spectroscopy at THz frequencies. The state-of-the-art NbN phonon-cooled HEB mixers have a relatively narrow (IF) bandwidth ~ 3- 4 GHz as a direct result of the poor acoustic transparency of the film-substrate interface and low sound velocity in NbN reducing the phonon escape time in the film. Alternatively, MgB2 displays a very short τe-ph ~ ps. The phonon escape time is also short due to the high sound velocity in the material (~ 7 Km.s^-2) thus giving rise to a broader IF bandwidth. Also, smaller magnetic penetration depth (λ ≈ 40 nm) of MgB2 makes material of choices for single photon detector application. The response time of an SNSPD is proportional to the square of its magnetic penetration depth λ. Therefore, MgB2 may potentially operate 10-fold faster than the NbN (λ =200 nm) based SNSPD. In this work, I present my effort to fabricate high quality ultrathin superconducting MgB2 films on 6H-SiC (0001) substrates, and study their superconducting and electronic properties. C- epitaxial 10 nm showed Tc of above 36 K, while residual resistivity of up to 26 μΩ.cm was achieved. Critical currents of more than 6 × 10^6 A · cm^−2 at 20 K have been measured for the films with thicknesses iv ranging from 10 to 100 nm. Fishtail structures have been observed in the magnetic field dependence of the critical current density for the thinnest of these films, indicating the presence of defects, which act as vortex pinning centers. From the magnetic field dependence, an average distance between adjacent pinning centers of 35 nm has been obtained for the thinnest films. Ultrathin film as thin as 1.8 nm (6 unit cells) can be achieved by Hybrid Physical-Chemical Vapor Deposition (HPCVD) followed by low angle Ar ion milling. These post processed films exhibit better superconducting properties compared to directly grown films. The 1.8 nm, showed Tc > 28 K and Jc > 10^6 A/cm^2 4 K. The surface roughness of the films was significantly improved and the suppression of Tc from the bulk value is much slower in milled films than in as-grown films. These results show the great potential of these ultrathin films for superconducting devices and present a possibility to explore superconductivity in MgB2 at the 2D limit. Finally, I measured the upper critical field of MgB2 films of various thickness and extracted their thickness dependent in-plane intraband diffusivities by using Gurevich model developed for two-band MgB2 superconductor in dirty limit. Results showed that π band diffusivity (Dπ) decreases rapidly from 71.12 cm^2/s for 100 nm film to 4.6 cm^2/s for 5 nm film where as �� band diffusivity (����) decreases much slower from 2.8 cm^2/s for 100 nm film to 0.8 cm^2/s for 5 nm film. This larger Dπ than ���� indicates the cleaner π band. / Physics

Physics

Diffusivity

Hot Electron Bolometer Mixer

Mgb2

Resistivity

Superconductivity

Upper Critical Filed