Tom E. Simos

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2002

26 EE Tom E. Simos: Exponentially-fitted Runge-Kutta-Nystro"m method for the numerical solution of initial-value problems with oscillating solutions. Appl. Math. Lett. 15(2): 217-225 (2002)

25 EE A. Konguetsof, Tom E. Simos: P-stable Eighth Algebraic Order Methods for the Numerical Solution of the Schrödinger Equation. Computers & Chemistry 26(2): 105-111 (2002)

2001

24 EE Tom E. Simos: Preface. Computers & Chemistry 25(1): 1 (2001)

23 EE George Avdelas, Tom E. Simos: On Variable-step Methods for the Numerical Solution of Schrödinger Equation and Related Problems. Computers & Chemistry 25(1): 3-13 (2001)

22 EE Tom E. Simos, Paul Stefan Williams: New Insights in the Development of Numerov-type Methods with Minimal Phase-lag for the Numerical Solution of the Schrödinger Equation. Computers & Chemistry 25(1): 77-82 (2001)

21 EE Tom E. Simos, Paul Stefan Williams: Dissipative Exponentially-fitted Methods for the Numerical Solution of the Schrödinger Equation. Computers & Chemistry 25(3): 261-273 (2001)

20 EE Tom E. Simos, Jesús Vigo-Aguiar: A Modified Runge-Kutta Method with Phase-lag of Order Infinity for the Numerical Solution of the Schrödinger Equation and Related Problems. Computers & Chemistry 25(3): 275-281 (2001)

19 EE Tom E. Simos: A Dissipative Exponentially-Fitted Method for the Numerical Solution of the Schrödinger Equation. Journal of Chemical Information and Computer Sciences 41(4): 909-917 (2001)

2000

18 EE George Avdelas, A. Konguetsof, Tom E. Simos: A Generalization of Numerov's Method for the Numerical Solution of the Schrödinger Equation in Two Dimensions. Computers & Chemistry 24(5): 577-584 (2000)

1999

17 A. Konguetsof, George Avdelas, Tom E. Simos: A Generalization of Numerov's Method for the Numerical Solution of the Schrödinger Equation in Two Dimensions. PDPTA 1999: 259-264

16 George Avdelas, Tom E. Simos: A Generator of P-stable Hybrid Methods. PDPTA 1999: 265-272

15 EE Tom E. Simos: An Expert System for the Numerical Solution of the Radial Schrödinger Equation. Computers & Chemistry 23(1): 1-7 (1999)

14 EE Tom E. Simos: Dissipative High Phase-lag Order Numerov-type Methods for the Numerical Solution of the Schrödinger Equation. Computers & Chemistry 23(5): 439-446 (1999)

13 EE Tom E. Simos, Paul Stefan Williams: On Finite Difference Methods for the Solution of the Schrödinger Equation. Computers & Chemistry 23(6): 513-554 (1999)

1998

12 EE Tom E. Simos, Paul Stefan Williams: Computer Algebra Programmes for the Construction of a Family of Numerov-type Exponentially-fitted Methods for the Numerical Solution of the Schrödinger Equation. Computers & Chemistry 22(2-3): 185-218 (1998)

11 EE Tom E. Simos: New Embedded Explicit Methods with Minimal Phase-lag for the Numerical Integration of the Schrödinger Equation. Computers & Chemistry 22(5): 433-440 (1998)

10 EE Tom E. Simos: An Eighth Order Exponentially-fitted Method for the Numerical Integration of the Schrödinger Equation. Computers & Chemistry 22(6): 467-489 (1998)

1997

9 EE Tom E. Simos: Accurate Computations for the Elastic Scattering Phase-shift Problem. Computers & Chemistry 21(2): 125-128 (1997)

8 EE Tom E. Simos, Paul Stefan Williams: Bessel and Neumann-fitted Methods for the Numerical Solution of the Radial Schrödinger Equation. Computers & Chemistry 21(3): 175-179 (1997)

7 EE Tom E. Simos, G. Tougelidis: An Explicit Eighth-order Method with Minimal Phase-lag for Accurate Computations of Eigenvalues, Resonances and Phase Shifts. Computers & Chemistry 21(5): 327-334 (1997)

6 EE Tom E. Simos, Paul Stefan Williams: A Family of Numerov-type Exponentially Fitted Methods for the Numerical Integration of the Schrödinger Equation. Computers & Chemistry 21(6): 403-417 (1997)

5 EE Tom E. Simos: An Exponentially Fitted Method for the Numerical Solution of the Schrödinger Equation. Journal of Chemical Information and Computer Sciences 37(2): 343-348 (1997)

1996

4 G. Papakaliatakis, Tom E. Simos: Integration of Some Constitutive Relations of Plain Strain Alastoplasticity Using Modified Runge-Kutta Methods. WNAA 1996: 365-372

3 Tom E. Simos, Paul Stefan Williams: Bessel and Neumann Fitted Methods for the Numerical Solution of the Schrödinger Equation. WNAA 1996: 442-449

2 Paul Stefan Williams, Tom E. Simos: Two-Step P-stable Methods with Phase-Lag of Order Infinity for the Numerical Solution of Special Second Order Initial Value Problems. WNAA 1996: 565-572

1 EE Tom E. Simos, G. Tougelidis: A Numerov-type Method for Computing Eigenvalues and Resonances of the Radial Schrödinger Equation. Computers & Chemistry 20(4): 397-401 (1996)

2002
26	EE	Tom E. Simos: Exponentially-fitted Runge-Kutta-Nystro"m method for the numerical solution of initial-value problems with oscillating solutions. Appl. Math. Lett. 15(2): 217-225 (2002)
25	EE	A. Konguetsof, Tom E. Simos: P-stable Eighth Algebraic Order Methods for the Numerical Solution of the Schrödinger Equation. Computers & Chemistry 26(2): 105-111 (2002)
2001
24	EE	Tom E. Simos: Preface. Computers & Chemistry 25(1): 1 (2001)
23	EE	George Avdelas, Tom E. Simos: On Variable-step Methods for the Numerical Solution of Schrödinger Equation and Related Problems. Computers & Chemistry 25(1): 3-13 (2001)
22	EE	Tom E. Simos, Paul Stefan Williams: New Insights in the Development of Numerov-type Methods with Minimal Phase-lag for the Numerical Solution of the Schrödinger Equation. Computers & Chemistry 25(1): 77-82 (2001)
21	EE	Tom E. Simos, Paul Stefan Williams: Dissipative Exponentially-fitted Methods for the Numerical Solution of the Schrödinger Equation. Computers & Chemistry 25(3): 261-273 (2001)
20	EE	Tom E. Simos, Jesús Vigo-Aguiar: A Modified Runge-Kutta Method with Phase-lag of Order Infinity for the Numerical Solution of the Schrödinger Equation and Related Problems. Computers & Chemistry 25(3): 275-281 (2001)
19	EE	Tom E. Simos: A Dissipative Exponentially-Fitted Method for the Numerical Solution of the Schrödinger Equation. Journal of Chemical Information and Computer Sciences 41(4): 909-917 (2001)
2000
18	EE	George Avdelas, A. Konguetsof, Tom E. Simos: A Generalization of Numerov's Method for the Numerical Solution of the Schrödinger Equation in Two Dimensions. Computers & Chemistry 24(5): 577-584 (2000)
1999
17		A. Konguetsof, George Avdelas, Tom E. Simos: A Generalization of Numerov's Method for the Numerical Solution of the Schrödinger Equation in Two Dimensions. PDPTA 1999: 259-264
16		George Avdelas, Tom E. Simos: A Generator of P-stable Hybrid Methods. PDPTA 1999: 265-272
15	EE	Tom E. Simos: An Expert System for the Numerical Solution of the Radial Schrödinger Equation. Computers & Chemistry 23(1): 1-7 (1999)
14	EE	Tom E. Simos: Dissipative High Phase-lag Order Numerov-type Methods for the Numerical Solution of the Schrödinger Equation. Computers & Chemistry 23(5): 439-446 (1999)
13	EE	Tom E. Simos, Paul Stefan Williams: On Finite Difference Methods for the Solution of the Schrödinger Equation. Computers & Chemistry 23(6): 513-554 (1999)
1998
12	EE	Tom E. Simos, Paul Stefan Williams: Computer Algebra Programmes for the Construction of a Family of Numerov-type Exponentially-fitted Methods for the Numerical Solution of the Schrödinger Equation. Computers & Chemistry 22(2-3): 185-218 (1998)
11	EE	Tom E. Simos: New Embedded Explicit Methods with Minimal Phase-lag for the Numerical Integration of the Schrödinger Equation. Computers & Chemistry 22(5): 433-440 (1998)
10	EE	Tom E. Simos: An Eighth Order Exponentially-fitted Method for the Numerical Integration of the Schrödinger Equation. Computers & Chemistry 22(6): 467-489 (1998)
1997
9	EE	Tom E. Simos: Accurate Computations for the Elastic Scattering Phase-shift Problem. Computers & Chemistry 21(2): 125-128 (1997)
8	EE	Tom E. Simos, Paul Stefan Williams: Bessel and Neumann-fitted Methods for the Numerical Solution of the Radial Schrödinger Equation. Computers & Chemistry 21(3): 175-179 (1997)
7	EE	Tom E. Simos, G. Tougelidis: An Explicit Eighth-order Method with Minimal Phase-lag for Accurate Computations of Eigenvalues, Resonances and Phase Shifts. Computers & Chemistry 21(5): 327-334 (1997)
6	EE	Tom E. Simos, Paul Stefan Williams: A Family of Numerov-type Exponentially Fitted Methods for the Numerical Integration of the Schrödinger Equation. Computers & Chemistry 21(6): 403-417 (1997)
5	EE	Tom E. Simos: An Exponentially Fitted Method for the Numerical Solution of the Schrödinger Equation. Journal of Chemical Information and Computer Sciences 37(2): 343-348 (1997)
1996
4		G. Papakaliatakis, Tom E. Simos: Integration of Some Constitutive Relations of Plain Strain Alastoplasticity Using Modified Runge-Kutta Methods. WNAA 1996: 365-372
3		Tom E. Simos, Paul Stefan Williams: Bessel and Neumann Fitted Methods for the Numerical Solution of the Schrödinger Equation. WNAA 1996: 442-449
2		Paul Stefan Williams, Tom E. Simos: Two-Step P-stable Methods with Phase-Lag of Order Infinity for the Numerical Solution of Special Second Order Initial Value Problems. WNAA 1996: 565-572
1	EE	Tom E. Simos, G. Tougelidis: A Numerov-type Method for Computing Eigenvalues and Resonances of the Radial Schrödinger Equation. Computers & Chemistry 20(4): 397-401 (1996)

Coauthor Index

1 George Avdelas [16] [17] [18] [23]

2 A. Konguetsof [17] [18] [25]

3 G. Papakaliatakis [4]

4 G. Tougelidis [1] [7]

5 Jesús Vigo-Aguiar [20]

6 Paul Stefan Williams [2] [3] [6] [8] [12] [13] [21] [22]

Colors in the list of coauthors

1	George Avdelas	[16] [17] [18] [23]
2	A. Konguetsof	[17] [18] [25]
3	G. Papakaliatakis	[4]
4	G. Tougelidis	[1] [7]
5	Jesús Vigo-Aguiar	[20]
6	Paul Stefan Williams	[2] [3] [6] [8] [12] [13] [21] [22]