Dieter Britz

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2007

16 EE Dieter Britz, Thomas Britz, Keisuke Shiromoto, Henrik Kragh Sørensen: The Higher Weight Enumerators of the Doubly-Even, Self-Dual [48, 24, 12] Code. IEEE Transactions on Information Theory 53(7): 2567-2571 (2007)

2003

15 EE Dieter Britz, Ole Østerby, Jörg Strutwolf: Damping of Crank-Nicolson error oscillations. Computational Biology and Chemistry 27(3): 253-263 (2003)

14 EE Dieter Britz, Jörg Strutwolf: Higher-order spatial discretisations in electrochemical digital simulations. Part 4. Discretisation on an arbitrarily spaced grid. Computational Biology and Chemistry 27(3): 327-337 (2003)

2002

13 EE Dieter Britz, Ole Østerby, Jörg Strutwolf, Tom Koch Svennesen: High-order Spatial Discretisations in Electrochemical Digital Simulation. Part 3. Combination with the Explicit Runge-Kutta Algorithm. Computers & Chemistry 26(2): 97-103 (2002)

2001

12 EE Jörg Strutwolf, Dieter Britz: High Order Spatial Discretisations in Electrochemical Digital Simulation. 2. Combination with the Extrapolation Algorithm. Computers & Chemistry 25(2): 205-214 (2001)

11 EE Jörg Strutwolf, Dieter Britz: Erratum to "High Order Spatial Discretisations in Electrochemical Digital Simulation. 2. Combination with the Extrapolation Algorithm": [Computers & Chemistry 25(2001) 205-214]. Computers & Chemistry 25(5): 509 (2001)

10 EE Jörg Strutwolf, Dieter Britz: High Order Spatial Discretisations in Electrochemical Digital Simulation. 2. Combination with the Extrapolation Algorithm. Computers & Chemistry 25(5): 511-520 (2001)

2000

9 EE Dieter Britz, Jörg Strutwolf: High-order Spatial Discretisations in Electrochemical Digital Simulation. 1. Combination with the BDF Algorithm. Computers & Chemistry 24(6): 673-684 (2000)

1999

8 EE Klaus Johannsen, Dieter Britz: Matrix Stability of the Backward Differentiation Formula in Electrochemical Digital Simulation. Computers & Chemistry 23(1): 33-41 (1999)

1998

7 EE Dieter Britz: Time Shift Artifacts and Start-up Protocols with the BDF Method in Electrochemical Digital Simulation. Computers & Chemistry 22(2-3): 237-243 (1998)

6 EE Dieter Britz: Stability of the Backward Differentiation Formula (FIRM) Applied to Electrochemical Digital Simulation. Computers & Chemistry 22(2-3): 267 (1998)

1997

5 EE Dieter Britz: Stability of the Backward Differentiation Formula (FIRM) Applied to Electrochemical Digital Simulation. Computers & Chemistry 21(2): 97-108 (1997)

4 EE Leslaw K. Bieniasz, Ole Østerby, Dieter Britz: The Effect of the Discretization of the Mixed Boundary Conditions on the Numerical Stability of the Crank-Nicolson Algorithm of Electrochemical Kinetic Simulations. Computers & Chemistry 21(6): 391-401 (1997)

1995

3 EE Leslaw K. Bieniasz, Ole Østerby, Dieter Britz: Numerical Stability of Finite Difference Algorithms for Electrochemical Kinetic Simulations: Matrix Stability Analysis of the Classic Explicit, Fully Implicit and Crank-Nicolson Methods and Typical Problems Involving Mixed Boundary Conditions. Computers & Chemistry 19(2): 121-135 (1995)

2 EE Leslaw K. Bieniasz, Ole Østerby, Dieter Britz: Numerical Stability of Finite Difference Algorithms for Electrochemical Kinetic Simulations. Matrix Stability Analysis of the Classic Explicit, Fully Implicit and Crank-Nicolson Methods, Extended to the 3- and 4-point Gradient Approximation at the Electrodes. Computers & Chemistry 19(4): 351-355 (1995)

1 EE Leslaw K. Bieniasz, Ole Østerby, Dieter Britz: Numerical Stability of the Saul'yev Finite Difference Algorithms for Electrochemical Kinetic Simulations: Matrix Stability Analysis for an Example Problem Involving Mixed Boundary Conditions. Computers & Chemistry 19(4): 357-370 (1995)

2007
16	EE	Dieter Britz, Thomas Britz, Keisuke Shiromoto, Henrik Kragh Sørensen: The Higher Weight Enumerators of the Doubly-Even, Self-Dual [48, 24, 12] Code. IEEE Transactions on Information Theory 53(7): 2567-2571 (2007)
2003
15	EE	Dieter Britz, Ole Østerby, Jörg Strutwolf: Damping of Crank-Nicolson error oscillations. Computational Biology and Chemistry 27(3): 253-263 (2003)
14	EE	Dieter Britz, Jörg Strutwolf: Higher-order spatial discretisations in electrochemical digital simulations. Part 4. Discretisation on an arbitrarily spaced grid. Computational Biology and Chemistry 27(3): 327-337 (2003)
2002
13	EE	Dieter Britz, Ole Østerby, Jörg Strutwolf, Tom Koch Svennesen: High-order Spatial Discretisations in Electrochemical Digital Simulation. Part 3. Combination with the Explicit Runge-Kutta Algorithm. Computers & Chemistry 26(2): 97-103 (2002)
2001
12	EE	Jörg Strutwolf, Dieter Britz: High Order Spatial Discretisations in Electrochemical Digital Simulation. 2. Combination with the Extrapolation Algorithm. Computers & Chemistry 25(2): 205-214 (2001)
11	EE	Jörg Strutwolf, Dieter Britz: Erratum to "High Order Spatial Discretisations in Electrochemical Digital Simulation. 2. Combination with the Extrapolation Algorithm": [Computers & Chemistry 25(2001) 205-214]. Computers & Chemistry 25(5): 509 (2001)
10	EE	Jörg Strutwolf, Dieter Britz: High Order Spatial Discretisations in Electrochemical Digital Simulation. 2. Combination with the Extrapolation Algorithm. Computers & Chemistry 25(5): 511-520 (2001)
2000
9	EE	Dieter Britz, Jörg Strutwolf: High-order Spatial Discretisations in Electrochemical Digital Simulation. 1. Combination with the BDF Algorithm. Computers & Chemistry 24(6): 673-684 (2000)
1999
8	EE	Klaus Johannsen, Dieter Britz: Matrix Stability of the Backward Differentiation Formula in Electrochemical Digital Simulation. Computers & Chemistry 23(1): 33-41 (1999)
1998
7	EE	Dieter Britz: Time Shift Artifacts and Start-up Protocols with the BDF Method in Electrochemical Digital Simulation. Computers & Chemistry 22(2-3): 237-243 (1998)
6	EE	Dieter Britz: Stability of the Backward Differentiation Formula (FIRM) Applied to Electrochemical Digital Simulation. Computers & Chemistry 22(2-3): 267 (1998)
1997
5	EE	Dieter Britz: Stability of the Backward Differentiation Formula (FIRM) Applied to Electrochemical Digital Simulation. Computers & Chemistry 21(2): 97-108 (1997)
4	EE	Leslaw K. Bieniasz, Ole Østerby, Dieter Britz: The Effect of the Discretization of the Mixed Boundary Conditions on the Numerical Stability of the Crank-Nicolson Algorithm of Electrochemical Kinetic Simulations. Computers & Chemistry 21(6): 391-401 (1997)
1995
3	EE	Leslaw K. Bieniasz, Ole Østerby, Dieter Britz: Numerical Stability of Finite Difference Algorithms for Electrochemical Kinetic Simulations: Matrix Stability Analysis of the Classic Explicit, Fully Implicit and Crank-Nicolson Methods and Typical Problems Involving Mixed Boundary Conditions. Computers & Chemistry 19(2): 121-135 (1995)
2	EE	Leslaw K. Bieniasz, Ole Østerby, Dieter Britz: Numerical Stability of Finite Difference Algorithms for Electrochemical Kinetic Simulations. Matrix Stability Analysis of the Classic Explicit, Fully Implicit and Crank-Nicolson Methods, Extended to the 3- and 4-point Gradient Approximation at the Electrodes. Computers & Chemistry 19(4): 351-355 (1995)
1	EE	Leslaw K. Bieniasz, Ole Østerby, Dieter Britz: Numerical Stability of the Saul'yev Finite Difference Algorithms for Electrochemical Kinetic Simulations: Matrix Stability Analysis for an Example Problem Involving Mixed Boundary Conditions. Computers & Chemistry 19(4): 357-370 (1995)

Coauthor Index

1 Leslaw K. Bieniasz [1] [2] [3] [4]

2 Thomas Britz [16]

3 Klaus Johannsen [8]

4 Ole Østerby [1] [2] [3] [4] [13] [15]

5 Keisuke Shiromoto [16]

6 Henrik Kragh Sørensen [16]

7 Jörg Strutwolf [9] [10] [11] [12] [13] [14] [15]

8 Tom Koch Svennesen [13]

Colors in the list of coauthors

1	Leslaw K. Bieniasz	[1] [2] [3] [4]
2	Thomas Britz	[16]
3	Klaus Johannsen	[8]
4	Ole Østerby	[1] [2] [3] [4] [13] [15]
5	Keisuke Shiromoto	[16]
6	Henrik Kragh Sørensen	[16]
7	Jörg Strutwolf	[9] [10] [11] [12] [13] [14] [15]
8	Tom Koch Svennesen	[13]