After one year at the
Institut des Hautes Études Scientifiques (IHES) in Bures-sur-Yvette, France, he joined the "Centre de Physique Théorique de Marseille" (the CPT) as it was being created in 1966, at the request of
Daniel Kastler. He then becomes research supervisor at the
CNRS.[2]
In 1993, he became involved in genomic research as part of a group formed in
Gif-sur-Yvette. He worked in this area with what eventually became the Laboratoire de Mathématique & Modélisation d'Evry until 2014.[5]
Tributes
Grossmann's lifelong scientific achievements were commemorated at a scientific conference held in his honor and that of
Yves Meyer on 12-13 June 2019 at the Institut de Mathématiques d'Orsay.[6]
A class of explicitly soluble, local, many‐center Hamiltonians for one‐particle quantum mechanics in two and three dimensions (I) (1980)[14]
The one particle theory of periodic point interactions (1980)[15]
Fermi pseudopotential in higher dimensions (1981)[16]
Class of potentials with extremely narrow resonances. I. Case with discrete rotational symmetry[17]
Decomposition of Hardy Functions into Square Integrable Wavelets of Constant Shape (1984)[18]
Use of Wavelet transform in the Study of Propagation of Transient Acoustic Signals Across a Plane Interface Between Two Homogeneous Media (1984)[19]
Wavelets on Discrete Fields Kristin Flornes, Alex Grossmann, Matthias Holschneider, Bruno Torrésani Applied and Computational Harmonic Analysis (1994)[20]
Proceeding: Perspectives in Mathematical Physics, International Conference in honor of Alex Grossmann (1997)[21]
On the Analysis of Pairwise Alignments of Protein Sequences (1998)
Transition Rate Matrices Determined By Families of Alignments Give Information About Evolution (1999)[22]
Rate Matrices for Analyzing Large Families of Protein Sequences (2001)[23]
After one year at the
Institut des Hautes Études Scientifiques (IHES) in Bures-sur-Yvette, France, he joined the "Centre de Physique Théorique de Marseille" (the CPT) as it was being created in 1966, at the request of
Daniel Kastler. He then becomes research supervisor at the
CNRS.[2]
In 1993, he became involved in genomic research as part of a group formed in
Gif-sur-Yvette. He worked in this area with what eventually became the Laboratoire de Mathématique & Modélisation d'Evry until 2014.[5]
Tributes
Grossmann's lifelong scientific achievements were commemorated at a scientific conference held in his honor and that of
Yves Meyer on 12-13 June 2019 at the Institut de Mathématiques d'Orsay.[6]
A class of explicitly soluble, local, many‐center Hamiltonians for one‐particle quantum mechanics in two and three dimensions (I) (1980)[14]
The one particle theory of periodic point interactions (1980)[15]
Fermi pseudopotential in higher dimensions (1981)[16]
Class of potentials with extremely narrow resonances. I. Case with discrete rotational symmetry[17]
Decomposition of Hardy Functions into Square Integrable Wavelets of Constant Shape (1984)[18]
Use of Wavelet transform in the Study of Propagation of Transient Acoustic Signals Across a Plane Interface Between Two Homogeneous Media (1984)[19]
Wavelets on Discrete Fields Kristin Flornes, Alex Grossmann, Matthias Holschneider, Bruno Torrésani Applied and Computational Harmonic Analysis (1994)[20]
Proceeding: Perspectives in Mathematical Physics, International Conference in honor of Alex Grossmann (1997)[21]
On the Analysis of Pairwise Alignments of Protein Sequences (1998)
Transition Rate Matrices Determined By Families of Alignments Give Information About Evolution (1999)[22]
Rate Matrices for Analyzing Large Families of Protein Sequences (2001)[23]