عظیم شخصیات کے اوصاف وخصائص: سیرت طیبہ کی روشنی میں

Great lineage, good manners, trustworthiness, sincerity, courage and bravery, obedience, generosity, modesty, humility, thankfulness, absolute trust in Allah, education and upbringing, affection and compassion towards the elderly, the youth, slaves and animals, the regard for truth, the endurance and patience etc. Are such features that at them neither was the match for the Holy Master (saw) born, nor will any such person be ever born. In addition, let alone friends, his enemies were helpless to hold him as-Sadiq (the Truthful) and al-Ameen (the Trustworthy) due to these and many other great attributes; and they would say: Muhammad is not a liar at all, but we can’t believe in him as a prophet sent by Allah. Moreover, even a non-Muslim or polytheist has never criticized his character to this day, nor will anybody do till the judgment day. Whenever the greatest personalities of the world were listed or somebody committed to writing on the said topic, the Holy Prophet (saw) remained at the top of the list. Drawing of the swords of father and son against each other, the change of the standard of friendship and enmity, fighting of master and his slave against each other, chanting the slogan of Ahad-Ahad (the only One, the only One) on the blazing sand, giving priority to martyrdom over the utterance of a word of unbelief, taking a husband away from his wife and separating a mother from her infant, deforming the condition after a blasphemous blow on the blessed face, forced migration to Habsha (Abyssinia) at times, and laying siege to Shb-e-Abi Talib (the valley of Abi Talib) at times.

Numerical Simulations of Staged-Pinch Plasma for Thermonuclear Fusion Studies

We have investigated the dynamics of staged pinch plasma using different types of stability criterion with a view to suppress Rayleigh-Taylor (R-T) instability. Fusion parameters in a staged pinch plasma device are estimated by considering double-gas puff as well as multicascade liner (N-multiple shells of finite thickness) system. First of all, the implosion dynamics of dense D-T fiber plasma driven by a double gas-puff z-pinch is examined in the presence of kinetic pressure. A modified snow-plow model has been used to describe the outer dynamics of imploding z-pinch plasma. We found that the inclusion of kinetic pressure introduces the usual plasma β-term. Our numerical results demonstrate that the fusion parameters can be achieved in a dense θ-pinch D-T fiber plasma for an optimum choice of density ratios of the test to driver gas at the interface position and the kinetic to magnetic pressure ratio. We expect that double gas- puff staged pinch device would be a more feasible approach to achieve fusion conditions with an enhanced stability. Since the shell thickness of the imploding plasma liner plays an important role in the stabilization of short-wavelength perturbations, causing R-T instability. First, we consider the implosion dynamics of a double-cascade configuration of two nested cylindrical shells with some initial radii and puff thicknesses that are imploded towards the axis under the action of J×B force. In order to achieve high density plasma at the final stage of collapse, D-T fiber plasma was seeded with high-Z Kr impurity so as to initiate radiative collapse. We choose different puff thickness so as to achieve stable implosion satisfying the criterion proposed by De Groot et al., [17]. Then we have also generalized the work by considering that the imploding z-pinch plasma is made up of discrete N-multiple shells of various thicknesses, radii and mass densities so as to reduce the total growth rate of R-T instability at the final stage of implosion. Our numerical results show that the plasma parameters of the D-T fiber sensitively depends upon the shell mass ratios and thicknesses. Large values of puff-thickness and mass-ratios provide stabilization against the R-T instability in the final stage of compression but adversely affects fusion conditions. For optimum values of puff-thicknesses and mass ratios, one can obtain fusion parameters of interest in a multicascade liner staged pinch device. In our zero- dimensional code, we have used typical parameters of Sandia National Laboratories for which the amplitude of discharge current was 10 MA, with a pulse duration of 50 nsec. We have also used sinusoidal type current profile. To make our model calculations more realistic, we have used current stepping technique, which uses the circuit coupled equation. In this technique, a single current step is added to the primary pinching current. We found that with current- stepping method, one can obtain very high density and high temperature plasma with relatively small values of driving current (kA) which are delivered in μsec time scale. Thus for optimum choice of scaling parameters, staged pinch device with current-stepping technique seemed to be a more feasible approach to achieve fusion conditions.