First authored publications

8. Validity of the Born approximation for beyond-Gaussian weak lensing observables: A. Petri, Z. Haiman, M. May; Phys. Rev. D 95, 123503

7. Cosmology with photometric weak lensing surveys: constraints with redshift tomography of convergence peaks and moments: A. Petri, M. May, Z. Haiman; Phys. Rev. D 94, 063534

6. Mocking the Weak Lensing universe: the LensTools python computing package: A. Petri; Astronomy & Computing, 17, 73-79

5. Sample variance in weak lensing: how many simulations are required?: A. Petri, Z. Haiman, M. May; Phys. Rev. D 93, 063524

4. Emulating the CFHTLenS weak lensing data: Cosmological constraints from moments and Minkowski functionals: A. Petri, J. Liu, Z. Haiman, M. May, L. Hui, J.M. Kratochvil; Phys. Rev. D 91, 103511

3. Impact of spurious shear on cosmological parameter estimates from weak lensing observables: A.Petri, M. May, Z. Haiman, J.M.Kratochvil; Phys. Rev. D 90, 123015

2. Cosmology with Minkowski Functionals and moments of the weak lensing convergence field: A.Petri, Z.Haiman, L.Hui, M.May, J.M.Kratochvil; Phys. Rev. D 88, 123002

1. Supermassive black hole ancestors: A.Petri, A.Ferrara, R.Salvaterra; Mon. Not. R. Astron. Soc. 422, 1690-1699


4. Do dark matter halos explain lensing peaks?: J. M. Zorrilla, Z. Haiman, D. Hsu, A. Gupta, A. Petri; Phys. Rev. D 94, 083506

3. CMB Lensing Beyond the Power Spectrum: Cosmological Constraints from the One-Point PDF and Peak Counts: J. Liu, J. Coin Hill, B. D. Sherwin, A. Petri, V. Bohm, Z. Haiman; Phys. Rev. D 94, 103501

2. Consequences of CCD imperfections for cosmology determined by weak lensing surveys: From laboratory measurements to cosmological parameter bias: Y. Okura, A. Petri, M. May, A. Plazas, T. Tamagawa; Astrophys. Journal 825-1, 61

1. Cosmology constraints from the weak lensing peak counts and the power spectrum in CFHTLenS data: J. Liu, A. Petri, Z. Haiman, L. Hui, J.M. Kratochvil, M. May; Phys. Rev, D. 91, 063507