Andres H. La Rosa 
Associate Professor of Physics
 
              Office  Phone :     (503) 725 - 8397 
Office :     Science  Building 2
    Room 418
     E-Mail :     andres@pdx.edu



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Research interests      

   Dr. La Rosa’s research focuses on the development of high-resolution imaging/metrology tools for characterizing dynamic process in mesoscopic
   systems.
   Semiconductor Materials Characterization:
        His “Lifetime Near-field Scanning Optical Microscope" (t-NSOM) uses a purely optical pump-probe method for mapping semiconductors’
        surfaces according to their carrier-lifetime (the average time that excited carriers take to return to equilibrium). Here, the values of  t (which are
        affected by the presence of defects) reflect materials quality. The near-field optical approach allows better lateral spatial resolution than
         conventional techniques.
  Characterization of  Mesoscopic Films and Subsurface Material Properties
      More recently Dr. La Rosa has incorporated ultrasonic sensing into the NSOM microscope, which enhances the versatile characteristics of the
      new microscope to also characterize elastic materials properties.  The resulting "Shear-force/Ultrasonic Near-field Microscope" (SUN-M)
      is being used for  a) Inves tigating the quite different (from the bulk) dynamic displayed by fluid-like films when subjected to mesoscopic confinement
      and while in intimate contact with two sliding solid boundaries; this studies have implications in nanotribology (friction studies at the nanometer scale);
      as well as  b) for imaging subsurface material properties.
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Teaching
  General Physics:                PH-211                PH-222 /212         PH-213   
   
  Experimental Physics:    PH-314                PH-315
  
  Applied Optics:                   PH-564/464
 
  Fabrication and Characterization of Nanomaterials:   NanoFab-2006        NanoFab-2007  
 
  Introduction to Quantum Mechanics:   PH 411/511
  
  Physics Seminar              PH-407/507/607 (2009)    

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Publications
C. Maedler, S. Chada, X. Cui, M. Taylor, M. Yan, and A. La Rosa, “Creation of nanopatterns by local protonation of P4VP via dip pen
            nanolithography.” J. Appl. Phys. 104, 014311 (2008).

A. H. La Rosa, N. Li, and K. Asante, “The ultrasonic/shear-force microscope: a metrology tool for surface science and technology," Invited
        Paper, in "Nanofabrication: Technologies, Devices, and Applications II,” Warren Y. Lai, L. E. Ocola, Stanley Pau Eds., Symposium
        in Optics East 2005, Boston, MA. Proc. SPIE 6002,  p. 163-170 (2005).


X. Cui, A. H. La Rosa, “Investigation of the probe-sample interaction in the ultrasonic/shear force microscope: The phononic friction mechanism.” 
          Appl. Phys. Lett. 87, 231907 (2005).

A. H. La Rosa, R. Nordstrom, X. Cui, J. McCollum,"The Ultrasonic/shear-force microscope: Integrating ultrasonic sensing into a near-field
          scanning optical  microscope," Rev. Sci. Instrum. 76, 093707 (2005).

R. Chandra Sikakollu, L. Meekisho, A. H. La Rosa, “Coupled Field Analyses in MEMS with Finite Element Analysis.” Journal of  Heat
          Transfer127, 34 (2005).

E. E. van Dyk, A. Karoui, A. H. La Rosa, and G. Rozgonyi, “Near-field scanning optical microscopy for characterization of  photovoltaic
          materials,” Phys. Stat Sol. (c) 1, pp. 2292– 2297 (2004).

B. Biehler and A. H. La Rosa, “High frequency-bandwidth optical technique to measure thermal elongation time responses of near-field scanning
          optical microscopy (NSOM) probes,” Rev. Sci. Instrum. 73, 3837-40 (2002).

H. P. Chiang, A. H. La Rosa, P. T. Leung, K. P. Li, and W. S. Tse; "Optical spectroscopy for single-molecules near  a microstructure at varying 
         substrate temperatures;" Optics. Commun. 205, 343-350 (2002).

A. H. La Rosa and H. Hallen, “A compact method for optical induction of proximal probe heating and elongation”, Appl. Optics 41,
           2015-9 (2002).

H. D. Hallen and A. H. La Rosa, "Near-Field Scanning Optical Microscopy as an Imaging Tool for Silicon Carrier Processes," Proc. of
          International Conference on Silicon Dielectric Interfaces, Research Triangle  Park, NC 25-27, February 2000.

A. H. La Rosa, B. I. Yakobson and H. D. Hallen, "Optical imaging of carrier dynamics with sub-wavelength resolution", Appl. Phys. Lett. 70,
           pp 1656 (1997). 

A. H. La Rosa, B. I. Yakobson and H. D. Hallen, "Imaging of Silicon Carrier Dynamics with Near-Field Scanning Optical Microscopy", 
          Mat. Res. Soc. Symp. Proc406, p. 189-194 (1996).

A. H. La Rosa, B. I. Yakobson abd H. D. Hallen, "Origins and effects of thermal processes on near-field optical probes", Appl. Phys. Lett. 67,
          2597 (1995). 

A. H. La Rosa, C. Jahncke, H. Hallen, "Time-resolved contrast in near-field scanning optical microscopy of semiconductors", SPIE 2384, pp.
          101 (1995).

H. D. Hallen, A. H. La Rosa, C. L. Jahncke, "Near-Field Scanning Optical Microscopy and Spectroscopy for Semiconductor Characterization",
         Physica Status Solidi (A) 152, 257-268 (1995).

A. H. La Rosa, C. L. Jahncke, H. D. Hallen, "Time as a contrast mechanism in near-field imaging", Ultramicroscopy 57, pp. 303-8 (1995).

B. I. Yakobson, A. H. La Rosa, M. A. Paesler, H. Hallen, "Thermal/Optical effects in NSOM probes", Ultramicroscopy 61, 179 (1995). 

A. H. La Rosa, M. A. Paesler, H. D. Hallen, "Characterization of Semiconductor Surfaces with the Near-Field Scanning Optical Microscope",
         Precision Engineering Center, 1994 Annual Report Val. XII, PP. 29-38; North Carolina State University, Raleigh, NC.

A. H. La Rosa, "Computer Simulation of Diffusion Controlled Deposition", Master Thesis, Southern Illinois  University at  Carbondale, 1990.

A. H. La Rosa, "Non-Linear Physics. Solitons and The Inverse Scattering Method", Thesis of Licenciado (Professional thesis), National University
         of Engineering,  Lima-Peru, 1985.
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Optical micro and nano technologies

      Optical MEMS:
               First practical Micro_Electro-Optical-Mechanical-Switch  built at Bell Labs

   Flat mirrors built at UCLA

                What is MEMS?

        MEMS applications: Dr. K. D. Wise @ The University of Michigan Center for Integrated Microsystems

       Bishop's_presentation

                DNA in nanostructures at Delft University of Technology - Netherlands

                Andres' Near-Field Optical Microscopy Images on Charge Carriers Dynamics

   Photonics:  Dream of Optical Network realized at  Agilent

                  Link to Scanning Capacitance Microscopy SCM

Other technologies
  Unexpected discovery could yield full spectrum solar cell

                  High-Temperature Superconductivity: Scanning Tunneling Microscope reveals new insights

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Sholarship Opportunities
 

  NSF  Division of Undergraduate Education

  National Defense Science and Engineering   Graduate Fellowships

   SME Education Foundation (Undergraduate and graduate students)

  Delta Gamma Foundation(Undergraduate and graduate students)

  Inventors Competition   ( $ 20,000 cash prize)

  List of scholarships

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General Information

       The Top Physicists in History

      Definition of the  meter

     Bjoern's Thesis          
     EB
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Research group: Current Projects      


Portland State University
last modified December, 2005