Your search keyword '"Yasir Jamil"' showing total 6 results

1. Plasma confinement to enhance the momentum coupling coefficient in ablative laser micro-propulsion: a novel approach

Author

Tousif Hussain, Yasir Jamil, Riaz Ahmad, M Qaiser Zakaria, and Muhammad Ahmad

Subjects

Shock wave, Materials science, Physics and Astronomy (miscellaneous), business.industry, Physics::Optics, Pulse duration, Plasma, Laser, law.invention, Optics, Physics::Plasma Physics, law, Physics::Accelerator Physics, Shielding effect, Ferrite (magnet), Atomic physics, business, Instrumentation, Cavity wall, Coupling coefficient of resonators

Abstract

We introduce for the first time the novel idea of manipulating the momentum coupling coefficient using plasma confinement and shock wave reflection from the cavity walls. The plasma was confined using cylindrical geometries of various cavity aspect ratios to manipulate the momentum coupling coefficient (C m ). The Nd: YAG laser (532 nm, 5 ns pulse duration) was focused on the ferrite sample surface to produce plasma in a region surrounded by cylindrical cavity walls. The multiple reflections of the shockwaves from the cavity walls confined the laser-induced plasma to the central region of the cavity that subsequently resulted in a significant enhancement of the momentum coupling coefficient values. The plasma shielding effect has also been observed for particular values of laser fluencies and cavity aspect ratios. Compared with the direct ablation, the confined ablation provides an effective way to obtain high C m values.

Published

2015

2. A new perspective of ablative pulsed laser propulsion: study on different morphologies of nano-structured ZnO

Author

Muhammad Ahmad, Humaima Saeed, Tousif Hussain, and Yasir Jamil

Subjects

Materials science, Laser ablation, Physics and Astronomy (miscellaneous), business.industry, Nanoparticle, Laser, Fluence, law.invention, law, Nano, Optoelectronics, Shielding effect, business, Instrumentation, Coupling coefficient of resonators, Wurtzite crystal structure

Abstract

We report for the first time a new application of four different morphologies including nano-noodles of zinc oxide as a laser ablation micro-thruster. Nano-noodles represent a unique class of materials in which the electrons are confined near the surface owing to the majority of the near surface atoms. The synthesized samples of ZnO were of single phase, having a wurtzite hexagonal structure. Three different morphologies, viz. initial (nanoparticles), intermediate (nano-noodles) and final (complete nano-noodles) of zinc oxide were ablated using a Nd : YAG laser operating at 1064 nm for the measurement of propulsion parameters. The momentum coupling coefficient (Cm) and the specific impulse (Isp) were evaluated using the non-contact optical triangulation method. It has been observed that the morphology of the material affects the laser ablation propulsion (LAP) parameters. For each sample, the laser fluence for the optimum coupling coefficient owing to the plasma shielding effect has also been found. The synthesized nanostructured zinc oxide samples have been found useful as efficient laser propellants that can be used in a variety of applications due to diversity in their momentum coupling coefficient and specific impulse values.

Published

2015

3. A novel laser assisted structure refinement of Co0.5Zn0.5Fe2O4

Author

Faiza Jabeen, Tousif Hussain, Yasir Jamil, and Muhammad Raza Ahmad

Subjects

Materials science, Physics and Astronomy (miscellaneous), Spinel, Analytical chemistry, Nanoparticle, Thermal treatment, engineering.material, Laser, law.invention, Crystallinity, law, engineering, Ferrite (magnet), Crystallite, Irradiation, Instrumentation

Abstract

A major issue in the synthesis of ferrites using the co-precipitation technique is the refinement in the crystal structure. We report in this work for the first time the use of a pulsed Nd:YAG (1064 nm) laser to refine the structure of spinel ferrite using pre-digestion irradiation of the sample. In view of the technological importance of single phase Co–Zn ferrite particles, an attempt has been made to remove the unwanted peaks through laser irradiation. It is well known that the wet chemical co-precipitation technique yields homogeneous ferrite nanoparticles but that it requires subsequent thermal treatment of long duration. It has been observed that the thermal energy imparted to the finite solution due to IR laser enhances the crystallinity of ferrites and refines the spinel structure. The additional phases that were present in the as-synthesized Co–Zn ferrite have been removed using the 1064 nm pulsed Nd:YAG laser. The XRD analysis and TEM micrographs showed that the pre-digestion laser irradiation of ferrite solution not only removed the unwanted peaks but also affected the average crystallite size. The average diameter of ferrite particles reduced to 20 nm due to laser irradiation.

Published

2014

4. He–Ne laser-induced changes in germination, thermodynamic parameters, internal energy, enzyme activities and physiological attributes of wheat during germination and early growth

Author

Muhammad Ahmad, Munawar Iqbal, Rashida Perveen, Qasim Ali, Yasir Jamil, and Muhammad Ashraf

Subjects

chemistry.chemical_classification, Physics and Astronomy (miscellaneous), Internal energy, Vegetative reproduction, Chemistry, Enthalpy, food and beverages, Sowing, Horticulture, Enzyme, Germination, Cultivar, Irradiation, Instrumentation

Abstract

Using low power continuous wave He–Ne laser irradiation of seeds, the germination characteristics, thermodynamic changes and enzyme activities as well as changes in morphological attributes were explored for wheat (Triticum aestivum L. cv. S-24) cultivar. The changes in thermodynamic properties such as change in enthalpy (ΔH), entropy generation [(ΔSe)], entropy flux [(ΔSc)], entropy generation ratio [(ΔS)e/Δt], and entropy flux ratio [(ΔS)c/Δt] showed significant (P < 0.05) changes at an energy level of 500 mJ. The germination energy (GE), germination percentage (G%), germination index (GI) as well as α-amylase and protease activities was also found to be higher at 500 mJ, while the mean emergence time (MET) and time for 50% germination (E50) decreased for 300 mJ irradiance. The internal energy of the seeds increased significantly at all laser energy levels, but was highest for 500 mJ 72 h after sowing. The enzyme activities increased up to 24 h after sowing and then declined. The activities of α-amylase and protease were found to be positively correlated with the plant physiological attributes. These results indicate that low power continuous wave He–Ne laser (632 nm) treatment has considerable biological effects on seed metabolism during germination as well as on later vegetative growth.

Published

2013

5. Recent advancements in spectroscopy using tunable diode lasers

Author

Yasir Jamil and Hira Nasim

Subjects

Materials science, Physics and Astronomy (miscellaneous), Field (physics), business.industry, Molecular spectroscopy, Laser, law.invention, Laser linewidth, Optics, law, Optoelectronics, business, Spectroscopy, Instrumentation, Tunable laser, Diode

Abstract

Spectroscopy using tunable diode lasers is an area of research that has gone through a dramatic evolution over the last few years, principally because of new exciting approaches in the field of atomic and molecular spectroscopy. This article attempts to review major recent advancements in the field of diode laser based spectroscopy. The discussion covers the developments made so far in the field of diode lasers and illustrates comprehensively the properties of free-running diode lasers. Since the commercially available free-running diode lasers are not suitable for high-precision spectroscopic studies, various techniques developed so far for converting these free-running diode lasers into true narrow linewidth tunable laser sources are discussed comprehensively herein. The potential uses of diode lasers in different spectroscopic fields and their extensive list of applications have also been included, which may be interesting for the novice and the advanced user as well.

Published

2013

6. Plasma confinement to enhance the momentum coupling coefficient in ablative laser micro-propulsion: a novel approach.

Author

Muhammad Raza Ahmad, Yasir Jamil, M Qaiser Zakaria, Tousif Hussain, and Riaz Ahmad

Published

2015