### Submitted

M. Dong, S.T. Cundiff, H.G. Winful, “Physics of frequency modulated comb generation in quantum well diode lasers,” submitted for publication in Phys. Rev. A (2018).

B. Lomsadze and S.T. Cundiff ” Frequency-comb based double-quantum two-dimensional spectrum identifies collective hyperfine resonances in atomic vapor induced by dipole-dipole interactions,” submitted for publication (2018).

ArXiv

### In Press

M. Richter, R. Singh, M. Siemens, S. T. Cundiff, “Deconvolution of Optical Multidimensional Coherent Spectra,” accepted for publication in Science Advances (2018).

B.C. Smith, B. Lomsadze and S.T. Cundiff, “Optimum repetition rates for dual-comb

spectroscopy,” accepted for publication in Optics Express (2018).

**2018**

T.Suzuki, R. Singh, M. Bayer, A. Ludwig, A.D. Wieck and S.T. Cundiff, “Detuning Dependence of Rabi Oscillations in an InAs Self-Assembled Quantum Dot Ensemble,” Phys. Rev. B **97**, 161301(R) (2018).

DOI

Selected as “Editors Choice”

E.W. Martin and S.T. Cundiff, “Inducing Coherent Quantum Dot Interactions,” Phys. Rev. B **97**, 081301(R) (2017).

DOI

Selected as “Editors Choice”

**2017**

M. Dong, N.J. Mangan, N. Kutz, S.T. Cundiff and H. Winful, “Traveling Wave Model for Frequency Comb Generation in Single-Section Quantum Well Diode Lasers,” IEEE J. Quantum Electr. **53**, 2500311 (2017)

DOI

B. Lomsadze and S.T. Cundiff, “Multi-Heterodyne two dimensional coherent spectroscopy using frequency combs,” Scientific Reports **7**, 14018 (2017).

DOI

B. Lomsadze and S.T. Cundiff, “Frequency combs enable rapid and high-resolution multidimensional coherent spectroscopy,” Science **357**, 1389-1391 (2017).

Summary

DOI Electronic Reprint: Abstract Reprint Full Text

W. Zhu, R. Wang, C. Zhang, G. Wang, Y. Liu, W. Zhao, X. Dai, X. Wang, G. Cerullo, S.T. Cundiff and M. Xiao, “Broadband two-dimensional electronic spectroscopy in an actively phase stabilized pump-probe configuration,” Optics Express **25**, 21115 (2017).

DOI

G. Moody and S.T. Cundiff, “Advances in Multi-Dimensional Coherent Spectroscopy of Semiconductor Nanostructures,” Advances in Physics: X **2**, 641-674 (2017)

DOI

R. Singh, M. Richter, G. Moody, M.E. Siemens, H. Li and S.T. Cundiff, “Localization Dynamics of Excitons in Disordered Semiconductor Quantum Wells,” Phys. Rev. B **95**, 235307 (2017).

DOI

B. Lomsadze and S.T. Cundiff, “Frequency comb-based four-wave-mixing spectroscopy,” Optics Lett. **12**, 2346-2349 (2017).

DOI

Hebin Li and S.T. Cundiff, “2D Coherent Spectroscopy of Electronic Transitions,” in: Ennio Arimondo, Chun C. Lin and Susanne F. Yeling, eds., Advances in ATOMIC, MOLECULAR and OPTICAL PHYSICS, Vol. 66, Burlington: Academic Press, pp. 1-48 (2017)

DOI

C. L. Smallwood, T.M. Autry, and S.T. Cundiff, “Analytical solutions to the finite-pulse Bloch model for multidimensional coherent spectroscopy,” J. Opt. Soc. Am. B **34**, 419-429 (2017).

DOI

### 2016

T. Suzuki, R. Singh, M. Bayer, A. Ludwig, A. D. Wieck, and S. T. Cundiff, “Coherent Control of the Exciton/Biexciton System in an InAs Self Assembled Quantum Dot Ensemble,” Phys. Rev. Lett. **117**, 157402 (2016).

Summary

DOI

R. Singh, T. Suzuki, T. M. Autry, G. Moody, M. E. Siemens, and S. T. Cundiff, “Polarization Dependent Exciton Linewidth in Semiconductor Quantum Wells – a Consequence of Bosonic Nature of Excitons,” Phys. Rev. B **94**, 081304(R) (2016).

DOI

J. O. Tollerud, S. T. Cundiff and J. A. Davis, “Revealing and Characterizing Dark Excitons Through Coherent Multidimensional Spectroscopy,” Phys. Rev. Lett. **117**, 097401 (2016).

DOI

M. Ives, T.M. Autry, S.T. Cundiff and G. Nardin, “Direct imaging of surface plasmon polariton dispersion in gold and silver thin films”, J. Opt. Soc. Am. B **33**, C17 (2016).

DOI

R. Singh, G.M. Moody, H. Li, M. Siemens and S.T. Cundiff, “Quantifying Spectral Diffusion by Direct Measurement of the Correlation Function for Excitons in Semiconductor Quantum Wells,” J. Opt. Soc. Am. B **33**, C137 (2016).

DOI

X. Li, M. Kira and S.T. Cundiff, “Fundamental optical processes in semiconductors:

introduction,” J. Opt. Soc. Am. B **33**, FOP1 (2016).

DOI

F. Gao, S.T. Cundiff and H. Li, “Probing dipole-dipole interaction in a rubidium gas via double-quantum 2D spectroscopy,” Opt. Lett. **41**, 2954 (2016).

DOI

### 2015

C. Bao, Y. Chang, C.X. Yang, N. Akhmediev, S.T. Cundiff, “Observation of Coexisting Dissipative Solitons in a Mode-locked Fiber Laser,” Phys. Rev. Lett. **115**, 253903 (2015).

DOI

M. Kira, S.W. Koch, and S.T. Cundiff, “Comment on ‘Nonlinear fluctuations and dissipation in matter revealed by quantum light’, Phys. Rev. A **92**, 057801 (2015)

DOI

X. Zhang, M. Willians, S.T. Cundiff, J.N. Kutz, “Semiconductor Diode Laser Mode-locking by a Waveguide Array,” IEEE J. Sel. Top. Quantum Electr. **22**, 7100106 (2015).

DOI

G. Nardin, T.M. Autry, G. Moody, R. Singh, H. Li and S.T. Cundiff, “Multi-Dimensional Coherent Optical Spectroscopy of Semiconductor Nanostructures: Collinear and Non-collinear Approaches,” J. Appl. Phys. **117**, 112804 (2015).

DOI

A. P. Spencer, H. Li, S.T. Cundiff and J.M. Jonas, “Pulse propagation effects in optical 2D Fourier-transform spectroscopy: Theory,” J. Phys. Chem. A 119, 3936-3960 (2015).

DOI

### 2014

**Pulse dynamics in a mode-locked fiber laser and its quantum limited comb frequency uncertainty.** Opt. Lett. 39, 3266-3269 (2014).

DOI

**Characterizing biexciton coherences with quantum spectroscopy.** Phys. Rev. B. 89, 155301 (2014).

DOI

** Perspective: Optical three dimensional coherent spectroscopy. **Physical Chemistry Chemical Physics. 16, 8193-8200 (2014).

DOI

**Coherent Coupling of Excitons and Trions in a Photoexcited CdTe/CdMgTe Quantum Well**. Phys. Rev. Lett. 112, 097401 (2014).

DOI

: **Quantum Droplets of Electrons and Holes.** Nature. 506, 471-475 (2014).

DOI

**Coherent Excitonic Coupling in an Asymmetric Double InGaAs Quantum Well Arises
**

**from Many-Body Effects.**Phys. Rev. Lett. 112, 046402 (2014).

DOI