After pursuing a computer science degree at MIT and an Electrical and Computer Engineering degree at the University of Massachusetts Lowell, Peter Gamache continued at UML for a Master's Degree in a Electrical and Computer Engineering. His expertise in Linux, Pearl, and a host of other operating systems and computer languages was invaluable to the research group. Working under the direction of Prof. Frank Colby, Peter developed several distributed systems and also a Boewulf cluster. Peter also developed a non-linear least-squares procedure based on a DUD (dosen't use derivative) algorithm to optimize intermolecular potential parameters. Peter is currently a programer at Liaison in Watertown, Ma.

Below is a short description of the research, presentations, publications he made as a UML student.

Research:
Peter wrote an algorithm to optimize the intermolecular potential parameters for the H₂O-N₂ collision system and created a network of PC computers that computed the Complex Robert-Bonamy half-width and line shift parameters as a function of temperature to compare with measured values. Typical calculations were about 4 days per iteration of the least-squares algorithm. The optimization of the parameters took rorghly 2 months of computation. Due to the algorithm we were able to accomplish this task.
Peter was also involved in the study of the modified Robert-Bonamy formalism, which compared the new expressions of Ma et al. to those of Robert and Bonamy for a number of collision systems: H₂O- H₂O, H₂O-N₂, H₂O-O₂, O₃-N₂, O₃-O₂, CH₄-N₂, and CH₄-O₂.

For a short description of the CRB formalism click here

Sept 1, 2006

Robert R. Gamache, Peter R. Gamache and Bobby Antony, "NON-LINEAR LEAST-SQUARES ADJUSTMENT OF THE INTERMOLECULAR POTENTIAL PARAMETER FOR THE H₂O-N₂ SYSTEM" paper L6, The 19^th International Conference on High Resolution Molecular Spectroscopy, Prague, Czech Republic, August 29 - September 2, 2006

June 8, 2006

Bobby Antony, Peter Gamache, Robert R. Gamache, and Jean-Michel Hartmann, "The roles of the S₁ and S₂ scattering matrix terms on half-widths and their temperature dependence for the water vapor-nitrogen system," 18^th International Conference on Spectral Line Shapes, Auburn University, Auburn, Alabama, June 4-9, 2006

April 25, 2006

Peter Gamache, Frank P Colby Jr and Robert R. Gamache, "ADJUSTING THE H₂O-N₂ INTERMOLECULAR POTENTIAL FOR LINE SHAPE CALCULATIONS USING MEASURED DATA VIA A NON-LINEAR LEAST SQUARE FITTING TECHNIQUE," The Ninth Annual Student Research Symposium, University of Massachusetts Lowell, Lowell, MA

Sept. 15, 2005

Bobby Antony, Peter Gamache, Carlos Szembek, Danielle Niles, and Robert R. Gamache, Modified complex Robert-Bonamy formalism calculations for strong to weak interacting systems, 19^th Colloquium on High Resolution Molecular Spectroscopy, 11-16 September, 2005, Salamanca, Spain

April 28, 2005

Peter Gamache, Frank Colby, Robert Gamache, "Corrections to the Robert-Bonamy Formalism in Applying the Linked Cluster Theorem," The Eighth Annual Student Research Symposium, University of Massachusetts Lowell, Lowell, MA

Publications

Robert R. Gamache, Bobby K. Antony, Peter R. Gamache, and Jean-Michel Hartmann, "The roles of the S₁ and S₂ scattering matrix terms on half-widths and their temperature dependence for the water vapor - nitrogen system," p. 351-354, in Spectral Line Shapes, ed. E. Oks and M. Pindzola, AIP Conference Proceedings, Vol. 874, Melville, NY, 2006. PDF preprint

Bobby Antony, Peter Gamache, Carlos Szembek, Danielle Niles, and Robert R. Gamache, "Modified complex Robert-Bonamy formalism calculations for strong to weak interacting systems," Molecular Physics, 104, 2791-2799, 2006. Article or PDF preprint