phase," Phys. Rev. Lett. 88, 205503 (2002).
34. B. Rousseau, N.W. Ashcroft, “Interstitial Electronic Localization,” Phys. Rev. Lett., 101, 046407 (2008).
33. J. Feng, R.G. Hennig, N.W. Ashcroft, "Emergent Reduction of Electronic State Dimensionality in Dense Ordered Li-Be Alloys," Nature 451, 445-448 (2008).
32. N.W. Ashcroft, "Diamond, Diamond Cells, and the Structure of Element 11," PNAS, 105, 5 (2008).
31. N.W. Ashcroft, "Fluctuation and Higher Temperature Superconductivity in Lighter Element Systems," Physica C 468, 115 (2007).
30. S. Gravel, N.W. Ashcroft, "Nonlinear Response Theories and Effective Pair Potentials," Phys. Rev., B 76, 144103 (2007).
29. J. Feng, R. Hoffmann, N.W. Ashcroft, "Theoretical Indications of Singular Structural and Electronic Features of Laves-Phase CaLi2 Under Pressure," Phys. Rev. Lett., 98, 247002 (2007).
28. E. Babaev, N.W. Ashcroft, "Violation of the London Law and Onsager-Feynman Quantization in Multi-component Auperconductors," Nature Physics, 3, 530 (2007).
27. W. Grochala, R. Hoffmann, J. Feng, N.W. Ashcroft, "The Chemical Imagination at Work in Very Tight Places," Ange. Chem. Int. Ed., 46, 3620 (2007).
26. N.D. Mermin, N.W. Ashcroft, "Hans Bethe's Contributions to Solid-State Physics," Int'l. J. Modern Phys., 20, 2227 (2006).
25. J. Feng, W. Grochala, T. Jaron, R. Hoffman, A. Bergara, N.W. Ashcroft, "Structure and Potential Superconductivity in SiH4 at High Pressure: En Route to Metallic Hydrogen," Phys. Rev. Lett., 96, 017006 (2006).
24. E. Babaev, A. Sudbø, N.W. Ashcroft, "Observability of a Projected New State of Matter: A Metallic Superfluid," Phys. Rev. Lett., 95, 105301 (2005).
23. N.W. Ashcroft, "Metallic Superfluids," J. Low Temp. Phys., 139, 711 (2005).
22. N.W. Ashcroft, "Bridgman's High-pressure Atomic Destructibility and It's Growing Legacy of Ordered States," J. Phys.: Condes. Matter, 16, S945 (2004).
21. B. Edwards, N.W. Ashcroft, "Order in Dense Hydrogen at Low Temperatures," PNAS, 101, 4013 (2004).
20. E. Babaev, A. Sudbø, N.W. Ashcroft, “A Superconductor to Superfluid Phase Transition in Liquid Metallic Hydrogen” , Nature 431, 666 (2004).
19. G. Atwal, N.W. Ashcroft, “Polarization Waves and Superconducting Instabilities in Electron Systems”, Phys. Rev. B 70, 104513 (2004).
18. N.W. Ashcroft, “Hydrogen Dominant Metallic Alloys: High Temperature Superconductors”, Phys. Rev. Lett. 92, 187002 (2004).
17. K. Nagao, J.B. Neaton, N.W. Ashcroft, “First–principles Study of Adhesion at Cu/SiO2 interfaces,” Phys. Rev. B 68, 125403 (2003).
16. K. Nagao, S.A. Bonev, A. Bergara, N.W. Ashcroft, “Enhanced Friedel Structure and Proton Pairing in Dense Solid Hydrogen,” Phys. Rev. Lett. 90, 035501 (2003).
15. G.S. Atwal, N.W. Ashcroft, “Correlation Effects and the High–frequency Spin Susceptibility of an Electron Liquid: Exact Limits,” Phys. Rev. B 67, 233104 (2003).
14. N.W. Ashcroft, “Hydrogen at High Density,” J. Phys. A: Math. Gen. 36, 6137 (2003).
13. G.S. Atwal, I.G. Khalil, N.W. Ashcroft, “Dynamical Local–field Factors and Effective Interactions in the Two-dimensional Electron Liquid,” Phys. Rev. B 67, 115107 (2003).
12. K.A. Mkhoyan, J. Silcox, E.S. Alldredge, N.W. Ashcroft, H. Lu, W.J. Schaff, L.F. Eastman, "Measuring Electronic Structure of Wurtzite InN Using Electron Energy Loss Spectroscopy," Applied Phys. Lett. 82, 1407 (2003).
11. A. Bergara, J.B. Neaton and N.W. Ashcroft, "Ferromagnetic Instabilities in Monatomic Lithium and Sodium Wires," International Journal of Quantum Chemistry 91, 239-244 (2003).
10. N.W. Ashcroft, “Complexity in the Hitherto Simple Metals,” Acta Cryst. A58, (Supplement) C61 (2002).
9. N.W. Ashcroft, "Putting the Squeeze on Lithium", Nature 419, 569 (2002).
14. J.B. Neaton and N.W. Ashcroft, "Low–Energy
Linear Structures in Dense Oxygen: Implications for the
phase," Phys. Rev. Lett. 88, 205503 (2002).
8. G.S. Atwal and N.W. Ashcroft, "Relaxation of an Electron System: Conserving approximation," Phys. Rev. B 65, 115109 (2002).
7. I.G. Khalil, M. Teter and N.W. Ashcroft, "Singular Structure and Enhanced Friedel Oscillations in the Two Dimensional Electron Gas," Phys. Rev. B 65, 195309 (2002).
6. N.W. Ashcroft, “Condensed Matter at Higher Densities,” High Pressure Phenomena, Edited by R.J. Hemley and G.L. Chiarotti, Proceedings of the International School of Physics “Enrico Fermi” Course CXLVII, 2002, p. 151.
5. N.W. Ashcroft, "The Light Elements at High Pressure, in Layered Form, and in Combination," Frontiers of High Pressure Research II: Application of High Pressure to Low-Dimensional Novel Electronic Materials, edited by H.D. Hochheimer et al. (Kluwer Academic Publishers, Netherlands), 2001, pg. 87-97.
4. S.A. Bonev and N.W. Ashcroft, "Hydrogen in Jellium: First-principle Pair Interactions," Phys. Rev. B 64, 224112 (2001).
3. K. Nagao, S.A. Bonev and N.W. Ashcroft, "Cusp-condition Constraints and the Thermodynamic Properties of Dense Hot Hydrogen," Phys. Rev. B. 64, 224111 (2001).
2. J.B. Neaton and N.W. Ashcroft, "On the Constitution of Sodium at Higher Densities," Phys. Rev. Lett. 86, 2830 (2001).
1. A. König and N.W. Ashcroft, "Structure and Effective Interactions in Three-component Hard-sphere Liquids," Phys. Rev. E. 63, 041203-1-041203-9 (2001).