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1. Solar Cells, Lambert W and the LogWright Functions

Author

Lankireddy, Prabhat, Jeevanandam, Sibibalan, Chaudhary, Aditya, Deshmukh, P. C., Roberts, Ken, and Valluri, S. R.

Subjects
Physics - Computational Physics, Physics - Applied Physics
Abstract

Algorithms that calculate the current-voltage (I-V) characteristics of a solar cell play an important role in processes that aim to improve the efficiency of a solar cell. I-V characteristics can be obtained from different models used to represent the solar cell, and the single diode model is a simple yet accurate model for common field implementations. However, the I-V characteristics are obtained by solving implicit equations, which involve repeated iterations and inherent errors associated with numerical methods used. Some methods use the Lambert W function to get an exact explicit formula, but often causes numerical overflow problems. The present work discusses an algorithm to calculate I-V characteristics using the LogWright function, a transformation of the Lambert W function, which addresses the problem of arithmetic overflow that occurs in the Lambert W implementation. An implementation of this algorithm is presented and compared against other algorithms in the literature. It is observed that in addition to addressing the numerical overflow problem, the algorithm based on the LogWright function offers speed benefits while retaining high precision., Comment: 6 pages, 3 figures. For associated code, see https://github.com/pace577/logwright-solar-cell.git

Published
2023

2. Lambert W Lines and Finite Square Well Sensors

Author

Roberts, Ken, Jisrawi, Najeh, Jeyasitharam, J., Suresh, Shreyas, Deshmukh, P. C., and Valluri, S. R.

Subjects
Quantum Physics
Abstract

The bound state energies of a 1-dimensional finite quantum square well (FSW) can be determined using a geometric method, involving a smooth mapping between two copies of the complex plane. The method allows one to identify particular strengths of the FSW at which the system can become unusually sensitive to changes in the well depth or geometry. In the present paper we explore that sensitivity, and exhibit a 3-D visualization of the solutions., Comment: 34 pages, 11 figures, 1 table

Published
2022

4. Routes through Education into Employment as England Enters the 2020s

Author

Roberts, Ken

Abstract

Throughout the 1980s and 90s there was international interest in the UK's extensive experience (which began in the 1970s) with measures to alleviate youth unemployment. Today the UK attracts international attention on account of its low rates of youth unemployment and NEET, its (still) relatively rapid education-to-work transitions, and (according to the OECD) its sustainable system for funding mass higher education. This paper uses a transitions regime paradigm to overview the outcomes of 40 years of change in England's lower and upper secondary education, government-supported training, welfare provisions, economy and labour markets. We see how government policies polarise schools and young people into those who are achieving and those who are failing. Then, as employers become more influential, young people are re-sorted into the employment classes that have been formed during 30 years of change in the economy and labour market. Most from the former achieving group are pulled into the centre, between the smaller numbers on the one side who are embarking on elite careers, and on the other those who become part of a precariat class.

Published
2019

5. An Analytic Study of the Wiedemann-Franz Law and the Thermoelectric Figure of Merit

Author

Yadav, Aakash, Deshmukh, PC, Roberts, Ken, Jisrawi, NM, and Valluri, SR

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics, Condensed Matter - Materials Science
Abstract

Advances in optimizing thermoelectric material efficiency have seen a parallel activity in theoretical and computational advances. In the current work, it is shown that the calculation of exact Fermi-Dirac integrals enables the generalization of the Wiedemann-Franz law (WF) to optimize the dimensionless thermoelectric figure of merit ZT. This is done by optimizing the Seebeck coefficient, the electrical conductivity and the thermal conductivity. In the calculation of the thermal conductivity, both electronic and phononic contributions are included. The solutions provide insight into the relevant parameter space including the physical significance of complex solutions and their dependence on the scattering parameter r and the reduced chemical potential.

Published
2019

8. Housing

Author

Fadaak, Talha H., Roberts, Ken, Fadaak, Talha H, and Roberts, Ken

Published
2019
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11. Youth

Author

Fadaak, Talha H., Roberts, Ken, Fadaak, Talha H, and Roberts, Ken

Published
2019
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13. Education

Author

Fadaak, Talha H., Roberts, Ken, Fadaak, Talha H, and Roberts, Ken

Published
2019
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15. On Calculating the Current-Voltage Characteristic of Multi-Diode Models for Organic Solar Cells

Author

Roberts, Ken and Valluri, S. R.

Subjects
Physics - Computational Physics, Mathematics - Numerical Analysis
Abstract

We provide an alternative formulation of the exact calculation of the current-voltage characteristic of solar cells which have been modeled with a lumped parameters equivalent circuit with one or two diodes. Such models, for instance, are suitable for describing organic solar cells whose current-voltage characteristic curve has an inflection point, also known as an S-shaped anomaly. Our formulation avoids the risk of numerical overflow in the calculation. It is suitable for implementation in Fortran, C or on micro-controllers., Comment: 21 pages, 11 figures

Published
2015

17. Band structure and transport studies of half Heusler compound DyPdBi: An efficient thermoelectric material

Author

Krishnaveni, S., Sundareswari, M., Deshmukh, P. C., Valluri, S. R., and Roberts, Ken

Subjects
Condensed Matter - Materials Science
Abstract

The discovery of Heusler alloys has revolutionized the research field of intermetallics due to the ease with which one can derive potential candidates for multifunctional applications. During recent years, many half Heusler alloys have been investigated for their thermoelectric properties. The f electron based rare earth ternary half Heusler compound DyPdBi has its f energy levels located close to the Fermi energy level. Other research efforts have emphasized that such materials have good thermoelectric capabilities. We have explored using first principles the electronic band structure of DyPdBi by use of different exchange correlation potentials in the density functional theoretical framework. Transport coefficients that arise in the study of thermoelectric properties of DyPdBi have been calculated and illustrate its potential as an efficient thermoelectric material. Both the theoretically estimated Seebeck coefficient and the power factor agree well with the available experimental results. Our calculations illustrate that it is essential to include spin-orbit coupling in these models of f electron half Heusler materials., Comment: 26 pages, 9 figures

Published
2015
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18. A Robust Approximation to a Lambert-Type Function

Author

Roberts, Ken

Subjects
Mathematics - Numerical Analysis
Abstract

The function $y = g(x) = \mathrm{log}\big(W(e^x)\big)$, where $W()$ denotes the Lambert W function, is the solution to the equation $y + e^y = x$. It appears in various problem situations, for instance the calculation of current-voltage curves for solar cells. A direct calculation of $g(x)$ may be inaccurate because of arithmetic underflow or overflow. We present a simple algorithm for calculating $g(x)$ that is robust, in that it will work for almost all $x$ values which are representable in the arithmetic of one's chosen computer language. The algorithm does not assume that the chosen computer language implements the Lambert W function.

Published
2015

20. Solution of the quantum finite square well problem using the Lambert W function

Author

Roberts, Ken and Valluri, S. R.

Subjects
Mathematical Physics
Abstract

We present a solution of the quantum mechanics problem of the allowable energy levels of a bound particle in a one-dimensional finite square well. The method is a geometric-analytic technique utilizing the conformal mapping $w \to z = w e^w$ between two complex domains. The solution of the finite square well problem can be seen to be described by the images of simple geometric shapes, lines and circles, under this map and its inverse image. The technique can also be described using the Lambert W function. One can work in either of the complex domains, thereby obtaining additional insight into the finite square well problem and its bound energy states. There are many opportunities to follow up, and we present the method in a pedagogical manner to stimulate further research in this and related avenues., Comment: Published, with slight revisions, Feb-2017 in Canadian Journal of Physics, vol 95, pp 105-110 under the title: "Tutorial: The quantum finite square well and the Lambert W function"

Published
2014
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23. The Lambert W Function, Laguerre Polynomials, and the Zeros of the QCD Partition Function

Author

Roberts, Ken and Valluri, S. R.

Subjects
High Energy Physics - Lattice, Mathematical Physics
Abstract

We study solutions of a transcendental equation for the complex chemical potential at which a random-matrix QCD model can undergo a phase transition at zero mass. An explicit solution is obtained in terms of the Lambert W function. We also provide a closed form expression for a QCD random matrix model partition function, as a sum of Laguerre polynomials, for complex chemical potential and non-zero mass., Comment: 7 pages, 1 figure. Resubmitted 28-Oct-2014 to correct typographical errors in equations (9) and (11). Also reformatted as single column, and provided article titles in the references. No other changes to content

Published
2013

35. Interaction of Technology Based Classroom Innovations and Administrative Systems.

Author

Facciola, Peter C. and Roberts, Ken C.

Abstract

This paper explores the challenges that South Mountain Community College (Phoenix, Arizona) faced in order to take advantage of the opportunities computer technology offered in its teacher education program. Three issues are examined which were critical to the effective use of computer technology: (1) the technology itself, including the college's emphasis on open-ended computer tools and the benefits of this technology for students; (2) the classroom learning environment in which the technology was used, i.e., the Dynamic Learning teacher preparation program, a classroom learning environment that invites students to mindfully engage in their studies, particularly when using computer technology; and (3) the administrative changes and challenges needed to facilitate instructional innovations, including budgeting, network infrastructure requirements, administration of the Dynamic Learning computer laboratory, training, off-campus access to technology, and course scheduling. The paper emphasizes how these factors led faculty and administrators to a dialectical process of discussion and action across campus to meet the needs of students. (AEF)

Published
1998

38. Education-to-Work Transitions in Former Communist Countries after 30-Plus Years of Transformation.

Author

Roberts, Ken, Pantea, Maria-Carmen, and Dabija, Dan-Cristian

Subjects
*YOUNG adults, *CENTRAL economic planning, *WAGES, *PRODUCTIVE life span, *DEMOGRAPHIC transition, *SUDDEN death, COMMUNIST countries
Abstract

This paper reviews how young people's education-to-work transitions have changed since 1989 in former communist countries that have subsequently become full members of the European Union (EU). The sudden collapse of the command economies led to an equally abrupt breakdown in earlier routes into working life. Subsequently, the new independent states have reconstructed their education and training, and their market economies have developed. They now exhibit similar variations in rates of youth unemployment, progression through higher education, and mixtures of academic and vocational secondary education as older EU member states. However, there are features that continue to set all ex-communist countries apart, irrespective of whether they have become full EU members. These are low local rates of pay and westward migration. Its new member states have joined the Southern countries in a European periphery. Yet, there may be sufficient winners in the European core and periphery to keep Europe united. [ABSTRACT FROM AUTHOR]

Published
2024
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44. Youth

Author

Fadaak, Talha H., primary and Roberts, Ken, additional

Published
2018
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