The University of Colorado at Boulder

1.D. Mueller, P. Schwindt, R. Grow, D. Z. Anderson and E. A. Cornell, “Guiding neutral atoms around curves with lithographically patterned current-carrying wires,” Phys. Rev. Lett. 83, 5194 (1999).

2.D. Mueller, E. A. Cornell, D. Z. Anderson and E. R. I. Abraham, “Guiding laser cooled atoms in hollow core fibers,” Phys. Rev. A 61, 033411/1 (2000).

3.V. B. Damião, D. L. Manuzak, W. S. Bickel and D. Z. Anderson, “Two-beam coupling modules for photorefractive optical circuits,” Appl. Opt. 40, 3365 (2001).

4.D. Mueller, E. A. Cornell, M. Prevedelli, P. D. D. Schwindt, A. Zozulya and D. Z. Anderson, “Waveguide atom beam splitter for laser-cooled neutral atoms,” Opt. Lett. 25, 1382 (2000).

5.D. Z. Anderson, V. B. Damião, E. Fotheringham, D. Popovic, S. Romisch and Z. Popovic, “Optically smart active antenna arrays,” Microwave Symposium Digest, 2000 IEEE MTT-S International 2, 843 (2000).

6.V. B. Damião, E. Fotheringham, V. Shkunov, L. Czaia and D. Z. Anderson, “Photorefractive BaTiO3 spheres and spherical disks,” Opt. Lett. 26, 611 (2001).

7.D. Mueller, E. A. Cornell, M. Prevedelli, P. D. D. Schwindt, Y.-J. Wang and D. Z. Anderson, “Magnetic switch for integrated atom optics,” Phys. Rev. A 63, 041602(R)/1-3 (2001).

8.D. Z. Anderson, V. Damião, D. Popovic, Z. Popovic, S. Romisch and A. Sullivan, “-70 dB optical carrier suppression by two-beam coupling in photorefractive media,” Appl. Phys. B 72, 743 (2001).

9.E. Fotheringham, S. Römisch, P. C. Smith, D. Popovic, D. Z. Anderson and Z. Popovic, “A lens antenna array with adaptive optical processing,” IEEE Trans. Antennas & Propagation 50, 607 (2002).

10.E. Fotheringham and D. Z. Anderson, “A miniature photorefractive circuit for principal component extraction,” Appl. Opt. 42, 4736 (2003).

11.D. Z. Anderson, V. M. Bright, L. Czaia, S. Du, S. Frader-Thompson, B. McCarthy, and M. Squires, "Atom optics on a chip," IEEE MEMS Conference (invited paper) (2003).

12.D. Z. Anderson and V. Damião, “The geometry underlying photorefractive two-beam coupling,” J. Opt. A: Pure & Appl. Opt. 5, 536 (2003).

13.D. Z. Anderson, “A holographic scheme for independent component analysis,” Appl. Phys. 95, 3272 (2004).

14.Y.-J. Wang, D. Z. Anderson, V. M. Bright, E. A. Cornell, Q. Diot, T. Kishimoto, M. Prentiss, R. A. Saravanan, P. D. D. Schwindt, S. R. Segal and S. Wu, “An atom Michelson interferometer on a chip using a Bose-Einstein condensate,” Phys. Rev. Lett. 94, 090405/1-4 (2005).

15.S. Du, M. B. Squires, Y. Imai, L. Czaia, R. A. Saravanan, V. Bright, J. Reichel, T. W. Hänsch and D. Z. Anderson, “Atom chip Bose-Einstein condensation in a portable vacuum cell,” Phys. Rev. A 70, 053606/1-4 (2004).

16.P. D. D. Schwindt, E. A. Cornell, T. Kishimoto, Y.-J. Wang and D. Z. Anderson, “Efficient loading of a magnetic waveguide on an atom chip,” Phys. Rev. A 72, 023612/1-8 (2005).

17.H. Ye, O. Nilsen, V. M. Bright and D. Z. Anderson, “A holographic chemical vapor sensor,” Opt. Lett. 30, 1467 (2005).

18.B. T. Seaman, M. Kramer, D. Z. Anderson and M. J. Holland, “Atomtronics: Ultracold atom analogs of electronic devices,” Phys. Rev. A 75, 023615/1-12 (2007).

19.J. A. Stickney, D. Z. Anderson and A. A. Zozulya, “Transistor-like behavior of a Bose-Einstein condensate in a triple-well potential,” Phys. Rev. A 75, 013608/1-11 (2007).

20.J. A. Stickney, D. Z. Anderson and A. A. Zozulya, “Increasing the coherence time of BoseEinstein-condensate interferometers with optical control of dynamics,” Phys. Rev. A 75, 063603/1-12 (2007).

21.S. M. Hughes and D. Z. Anderson, “Modulation-enhanced sensitivity of holographic interferometry,” Appl. Opt. 46, 7868 (2007).

22.J. A. Stickney, R. P. Kafle, D. Z. Anderson and A. A. Zozulya, "Theoretical analysis of a single- and double-reflection atom interferometer in a weakly confining magnetic trap," Phys. Rev. A 77, 043604/1-9 (2008).

23.H-C. Chuang, R. Jiménez-Martinez, S. Braun, D.Z. Anderson and V. M. Bright, "Tunable external cavity diode laser using a micromachined silicon flexure and a volume holographic reflection grating for applications in atomic optics," J. Micro/Nanolithography, MEMS and MOEMS 7, 021010 (2008).

24.H-C. Chuang, D. Z. Anderson and V. M. Bright, "Fabrication of through-wafer interconnects in silicon substrates for ultra-high-vacuum atomic-optics cells," J. Micromechanics and Microengineering 18, 045003 (2008).