YUN WANG

Refereed papers with ≥ 50 citations: 54

More than 200 citations:


1. Yun Wang, and Pia Mukherjee
   Robust Dark Energy Constraints from Supernovae, Galaxy Clustering, and Three-Year Wilkinson Microwave Anisotropy Probe Observations,
   ApJ, 650, 1 (2006)
2. Yun Wang, and Max Tegmark
   New dark energy constraints from supernovae, microwave background and galaxy clustering,
   Phys. Rev. Lett., 92, 241302 (2004)
3. Tomislav Kundic (Th. Astroph., Caltech), Edwin L. Turner, Wesley N. Colley, J. Richard Gott, III, James E. Rhoads, Yun Wang (Princeton), Louis E. Bergeron, Karen A. Gloria, Daniel C. Long (Apache Point Observ.), Sangeeta Malhotra (IPAC), Joachim Wambsganss (Astroph. Inst., Potsdam),
   A Robust Determination of the Time Delay in 0957+561A,B and a Measurement of the Global Value of Hubble's Constant,
   ApJ 482, 75 (1997)
4. L. Amendola, et al.,
   Cosmology and Fundamental Physics with the Euclid Satellite,
   Living Reviews in Relativity, vol. 16, no. 6
5. Yun Wang, and Pia Mukherjee
   Observational Constraints on Dark Energy and Cosmic Curvature,
   PRD, 76, 103533 (2007)
6. Yun Wang, and Pia Mukherjee
   Model-Independent Constraints on Dark Energy Density from Flux-averaging Analysis of Type Ia Supernova Data,
   ApJ, 606, 654 (2004)
7. Yun Wang, and Max Tegmark
   Uncorrelated Measurements of the Cosmic Expansion History and Dark Energy from Supernovae,
   Phys. Rev. D 71, 103513 (2005)
8. Chia-Hsun Chuang, and Yun Wang
   Modelling the anisotropic two-point galaxy correlation function on small scales and single-probe measurements of H(z), DA(z) \ and f(z)sigma8(z) from the Sloan Digital Sky Survey DR7 luminous red galaxies
   MNRAS, 435, 255 (2013)
9. Euclid Collaboration
   Euclid preparation. VII. Forecast validation for Euclid cosmological probes,
   A&A, 642, A191 (2020)
10. Euclid Collaboration
    Euclid preparation. I. The Euclid Wide Survey,
    A&A, 662, A112 (2022)
    
    100-200 citations:
    
    
11. Pierre Sikivie, Igor Tkachev, and Yun Wang,
    The secondary infall model of galactic halo formation and the spectrum of cold dark matter particles on Earth,
    Phys. Rev. D56, 1863 (1997)
12. Pia Mukherjee, and Yun Wang
    Wavelets and WMAP non-Gaussianity,
    ApJ, 613, 51 (2004)
13. R. Holman, E.W. Kolb, and Yun Wang,
    Gravitational Couplings of the Inflaton in Extended Inflation,
    Phys. Rev. Lett. 65(1990)17
14. Pia Mukherjee, and Yun Wang,
    Model-Independent Reconstruction of the Primordial Power Spectrum from WMAP Data,
    ApJ, 599, 1 (2003)
15. Pierre Sikivie, Igor Tkachev, and Yun Wang,
    The Velocity Peaks in the Cold Dark Matter Spectrum on Earth,
    Phys. Rev. Lett. 75(1995)2911
16. Yun Wang
    Differentiating dark energy and modified gravity with galaxy redshift surveys,
    JCAP05(2008)021
    
17. Chia-Hsun Chuang, and Yun Wang
    Measurements of H(z) and DA(z) from the two-dimensional two-point correlation function of Sloan Digital Sky Survey lumin\ ous red galaxies
    MNRAS, 426, 226 (2012)
    
18. Yun Wang,
    Flux-averaging Analysis of Type Ia Supernova Data,
    ApJ 536, 531 (2000), astro-ph/9907405.
19. Yun Wang
    Figure of merit for dark energy constraints from current observational data
    PRD,77, 123525 (2008)
20. Yun Wang, & Shuang Wang
    Distance priors from Planck and dark energy constraints from current data
    Phys. Rev. D, 88, 043522 (2013)
21. Yun Wang, Albert Stebbins, Edwin L. Turner
    Gravitational Lensing of Gravitational Waves from Merging Neutron Star Binaries,
    PRL, 77, 2875 (1996)
22. Euclid Collaboration
    Euclid preparation. I. The Euclid Wide Survey
    A&A, 662, A112 (2022)
23. Euclid Collaboration
    Euclid preparation: IX. EuclidEmulator2 - power spectrum emulation with massive neutrinos and self-consistent dark energy perturbations,
    MNRAS, 505. 2840 (2021)
    
    50-99 citations:
    
    
24. Yun Wang, & Peter Garnavich,
    Measuring Time-Dependence of Dark Energy Density from Type Ia Supernova Data,
    ApJ, 552, 445 (2001)
25. Yun Wang, Neta Bahcall, and Edwin L. Turner,
    A Catalog of Color-based Redshift Estimates for z <~ 4 Galaxies in the Hubble Deep Field,
    AJ 116, 2081 (1998)
26. Yun Wang, Katherine Freese, Paolo Gondolo, Matthew Lewis,
    Future Type Ia Supernova Data as Tests of Dark Energy from Modified Friedmann Equations,
    ApJ, 594, 25-32 (2003)
27. Yun Wang, and Katherine Freese
    Probing Dark Energy Using Its Density Instead of Its Equation of State,
    Phys. Lett. B, 632, 449 (2006)
28. Yun Wang, David N. Spergel, and Michael Strauss,
    Cosmology in the Next Millennium: Combining MAP and SDSS Data to Constrain Inflationary Models,
    ApJ, 510, 20 (1999)
29. R. Holman, E.W. Kolb, S.L. Vadas, and Y. Wang,
    Extended inflation from higher dimensional theories,
    Phys.Rev.D43,995 (1991)
30. Yun Wang, Daniel E. Holz, and Dipak Munshi,
    A Universal Probability Distribution Function for Weak-lensing Amplification,
    ApJ, 572, L15-L18 (2002)
31. Andrew R Liddle, Pia Mukherjee, David Parkinson, Yun Wang
    Present and future evidence for evolving dark energy,
    PRD, 74, 123506 (2006)
32. Yun Wang, Will Percival, Andrea Cimatti, Pia Mukherjee, Luigi Guzzo, Carlton M. Baugh, Carmelita Carbone, Paolo Franzetti, Bianca Garilli, James E. Geach, Cedric G. Lacey, Elisabetta Majerotto, Alvaro Orsi, Piero Rosati, Lado Samushia, Giovanni Zamorani
    Designing a space-based galaxy redshift survey to probe dark energy
    MNRAS, 409, 737 (2010)
33. Yun Wang
    Model-independent distance measurements from gamma-ray bursts and constraints on dark energy
    Phys. Rev. D, 78, 123532 (2008)
34. R. Holman, E.W. Kolb, S.L. Vadas, and Y. Wang,
    Plausible Double Inflation,
    Phys. Lett. B269(1991)252
35. Gang Chen, Pia Mukherjee, Tina Kahniashvili, Bharat Ratra, Yun Wang,
    Looking for Cosmological Alfven Waves in Wilkinson Microwave Anisotropy Probe Data,
    ApJ, 611, 655 (2004)
36. Cimatti, A.l Robberto, M, et al. (the SPACE Team),
    SPACE: the spectroscopic all-sky cosmic explorer,
    Experimental Astronomy, 23, 39 (2009)
37. Carbone, Carmelita; Verde, Licia; Wang, Yun; Cimatti, Andrea,
    Neutrino constraints from future nearly all-sky spectroscopic galaxy surveys,
    JCAP, 03, 030 (2011)
38. Yun Wang,
    Dark energy constraints from baryon acoustic oscillations,
    ApJ, 647, 1 (2006)
39. Orsi, Alvaro; Baugh, C. M.; Lacey, C. G.; Cimatti, A.; Wang, Y.; Zamorani, G.,
    Probing dark energy with future redshift surveys: a comparison of emission line and broad-band selection in the near-infrared,
    MNRAS, 405, 1006 (2010)
40. R. Holman, E.W. Kolb, S.L. Vadas, and Y. Wang,
    Scale-invariant extended inflation,
    PRD, 43, 3833 (1991)
41. Yun Wang
    Supernova Pencil Beam Survey,
    ApJ, 531, 676 (2000)
42. Yun Wang, Jan Michael Kratochvil, Andrei Linde, Marina Shmakova
    Current observational constraints on cosmic doomsday
    JCAP, 12, 006 (2004)
43. Yun Wang, and Mi Dai
    Exploring uncertainties in dark energy constraints using current observational data with Planck 2015 distance priors
    PRD, 94, 083521 (2016)
44. Samushia, Lado; Percival, Will J.; Guzzo, Luigi; Wang, Yun, et al.
    Effects of cosmological model assumptions on galaxy redshift survey measurements
    MNRAS, 410, 1993 (2011)
45. Tim Eifler, et al.
    Cosmology with the Roman Space Telescope - multiprobe strategies
    MNRAS, 507, 1746 (2021)
46. Euclid Collaboration, Knabenhans, M. et al.
    Euclid preparation: IX. EuclidEmulator2 - power spectrum emulation with massive neutrinos and self-consistent dark energy perturbations
    MNRAS, 505, 2840 (2021)
47. Yun Wang, etc.
    The High Latitude Spectroscopic Survey on the Nancy Grace Roman Space Telescope,
    ApJ, 928, 1 (2022)
48. Yun Wang, and Mi Dai
    Exploring uncertainties in dark energy constraints using current observational data with Planck 2015 distance priors,
    PRD, 94, 3521 (2016)
49. Euclid Collaboraton
    Euclid preparation. X. The Euclid photometric-redshift challenge,
    A&A, 644A, 31 (2020)
50. Euclid Collaboraton
    Euclid preparation. V. Predicted yield of redshift 7 < z < 9 quasars from the wide survey,
    A&A, 631A, 85 (2019)
51. Euclid Collaboraton
    Euclid: Forecast constraints on the cosmic distance duality relation with complementary external probes,
    A&A, 644A, 80 (2020)
52. Euclid Collaboraton
    Euclid preparation. XVIII. The NISP photometric system,
    A&A, 662A, 92 (2022)
53. Euclid Collaboraton
    Euclid preparation. XVII. Cosmic Dawn Survey: Spitzer Space Telescope observations of the Euclid deep fields and calibration fields,
    A&A, 658A, 126 (2022)
54. Loureiro, A.; et al.
    KiDS and Euclid: Cosmological implications of a pseudo angular power spectrum analysis of KiDS-1000 cosmic shear tomography,
    A&A, 665A, 56 (2022)