This is a partial list of Anders publications.
The calculations were performed on the RC4000/RC8000 computers.
Programmed in the ALGOL language.
Synthesization of the Ar VIII 3s-3p beam-foil decay curve,
A. Lindgård and E. Veje,
Nucl. Instrum. Methods Phys. Res. 202, 377 (1982)
A beam-foil study of lifetimes in Ga I, Ga III, Tl I, and Tl III,
A. Lindgård, S. Mannervik, B. Jelenkovic', and E. Veje,
Nucl. Instrum. Methods Phys. Res. 202, 59 (1982)
A discussion of mixing coefficients obtained using the many channel quantum defect theory in fitting to atomic spectra and their use for calculations of lifetimes for B I and Al I,
A. Lindgård,
Phys. Scr. 26, 84 (1982)
A beam-foil exitation of Xe, 4MeV,
R. Hallin, L. Leavitt, A. Lindgård, P. Rathmann, and E. Veje,
Nucl. Instrum. Methods Phys. Res. 202, 41 (1982)
A beam-foil study of lifetimes and level excitations in gallium and thallium,
A. Lindgård, S. Mannervik, B. Jelenkovic', and E. Veje,
Z. Phys. A 301, 1 (1981)
Experimental and simulated beam-foil decay curves for some transitions in Zn II,
S. Hultberg, L. Liljeby, A. Lindgård, S. Mannervik, and E. Veje,
Phys. Scr. 22, 623 (1981)
Lifetimes in Mg I and Mg II; Beam-foil measurements and numerical Coulomb-approximation calculations,
L. Liljeby, A. Lindgård, S. Mannervik, E. Veje, and B. Jelenkovic',
Phys. Scr. 21, 805 (1980)
Semi-empirical oscillator strengths for the Cu I isoelectronic sequence,
A. Lindgård, L. J. Curtis, I. Martinson, and S. E. Nielsen,
Phys. Scr. 21, 47 (1980)
Extraction of lifetimes from Beam-Foil decay curves,
S. Hultberg, L. Liljeby, S. Mannervik, E. Veje, and A. Lindgård,
J. Phys. (France) 40 C1-155 (1979)
Population Inversion Observed for Beam-Foil Exited Zn II levels,
S. Hultberg, L. Liljeby, A. Lindgård, S. Mannervik, S. E. Nielsen, and E. Veje,
Phys. Lett. 69A 185 (1978)
Transition probabilities for the alkali isoelectronic sequences, Li I, Na I, K I, Rb I, Cs I, Fr I,
A. Lindgård and S. E. Nielsen,
At. Data Nucl. Data Tables 19, 533?633 (1977)
Energy levels and transition probabilities in Mo XIV,
L. J. Curtis, A. Lindgård, B. Edlén, I. Martinson, and S. E. Nielsen,
Phys. Scr. 16, 72 (1977)
Radiative lifetimes of excited levels in three-electron systems: Ga I, Ge II, As III, Se IV and In I, Sn II, Sb III, Te IV
T. Andersen and A. Lindgård,
J. Phys. B 10, 2359 (1977)
Angular Distributions of Electrons from Resonant Two-Photon Ionisation of Sodium
J. A. Duncanson, jr., M. P. Strand, A. Lindgård and R. S. Berry
Phys. Rev. Let. 37 987 (1976)
Numerical approach to transition probabilities in the Coulomb approximation: Be II and Mg II Rydberg series,
A. Lindgård and S. E. Nielsen,
J. Phys. B 8, 1183 (1975)
Preben Graae Sørensen and Anders Lindgård
A Timeshared Process Control System for Experimental Physical Chemistry,
predominantly programmed in a High Level Language
Computers in Chemical Research and Education, 5/39 (1973)
Anders Lindgård,Preben Graae Sørensen and Jørgen Oxenbøll:
Sharing a Microcomputer between different experiment and plotting tasks,
under the control of a multiprogrammed computer
J. Phys. E 10 264 (1977)
Anders Lindgård, Jørgen Oxenbøll, Ejvind Sørensen:
Hierarchical Multi-Level Computer Network for Laboratory Automation.
Softw., Pract. Exper. 13(3): 227-240 (1983)
R. Moss, Anders Lindgård:
Parametric spline curves in integer arithmetic designed for use in microcomputer controlled plotters.
Computers & Graphics 4(1): 51-61 (1979)
Anders Lindgård:
P-A Timesharing Operating System for Laboratory Automation.
Softw., Pract. Exper. 9(12): 971-986 (1979)
Anders Lindgård, P. Grass Sørensen: , Jørgen Oxenbøll:
Using e minicomputer to increase the available central processor time for a multiprogrammed computer system.
Computers & Chemistry 1(4): 277-286 (1977)
Anders Lindgård, R. Moss, Jørgen Oxenbøll:
A multiprogrammed process computer used as a Spectrometer for quasielastic light scattering.
Computers & Chemistry 1(1): 7-12 (1976)
J. V. Bertelsen and Anders Lindgård:
The Interpretation of the General Debye Function as a distribution of Relaxation Times:
J. Pol. Sci. 12 1707 (1974)