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PAPERS:
86) Micromechanical Resonator Driven by Radiation Pressure Force
Joseph A. Boales, Farrukh Mateen & Pritiraj Mohanty
Scientific Reports 7, 16056 (2017)
https://www.nature.com/articles/s41598-017-16063-4.epdf
85) Optical wireless information transfer with nonlinear micromechanical resonators
Joseph A. Boales, Farrukh Mateen & Pritiraj Mohanty
Microsystems & Nanoengineering 3, 17026 (2017)
https://www.nature.com/articles/micronano201726
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84)Micromechanical microphone using sideband modulation of nonlinear resonators
Joseph A. Boales, Farrukh Mateen, and Pritiraj Mohanty
Appl. Phys. Lett. 111, 093504 (2017)
http://aip.scitation.org/doi/abs/10.1063/1.4996993
83) Autoassociative Memory and Pattern Recognition in Micromechanical Oscillator Network
Ankit Kumar and Priitiraj Mohanty,
Scientific Reports 7, 411 (2017)
http://www.nature.com/articles/s41598-017-00442-y.epdf
82) Wireless Actuation of Bulk Acoustic Modes (BAW) in Micromechanical Resonators
Farrukh Mateen, Benjamin Brown, Shyamsunder Erramilli, Pritiraj Mohanty, Applied Physics Letters (2016)
Link, Local pdf: Wireless-APL-4961247.pdf
81) Wireless actuation of micromechanical resonators
Farrukh Matteen, Carsten Maedler, Shyamsunder Erramilli and Pritiraj Mohanty, Nature - Microsystems and Nanoengineering 2, 16036 (2016)
Paper: Link, micronano201636.pdf
Supplementary Information: micronano201636-s1.pdf
80) Wireless transfer of power by a 35-GHz metamaterial split-ring resonator rectenna
Carsten Maedler, George Kaiser, Adrian Yi, Jason Christopher, Mi K. Hong, Alket Metiri, Larry House, Husevin R. Seren, Xin Zhang, Richard Averitt, Pritiraj Mohanty, Shyamsunder Erramilli (2016)
http://arxiv.org/abs/1608.02490
79) Perspective: Melanoma diagnosis and monitoring: Sunrise for melanoma therapy but early detection remains in the shade
Remco Spanjaard, David Weaver, Shyamsunder Erramilli, Pritiraj Mohanty (2016)
http://arxiv.org/abs/1607.06720
78) Nanomechanical detection of the spin Hall effect, Physical Review B (2016)
http://dx.doi.org/10.1103/PhysRevB.93.161414
77) Sensing of the melanoma biomarker TROY using silicon nanowire field-effect transistors
Carsten Maedler, Daniel Kim, Remco A. Spanjaard, Mi Hong, Shyamsunder Erramilli, Pritiraj Mohanty, ACS Sensors (2016)
http://dx.doi.org/10.1021/acssensors.6b00017
76) Dissipation in Nanoelectromechanical Systems (Review),
Matthias Imboden & Pritiraj Mohanty, Physics Reports (2014)
http://dx.doi.org/10.1016/j.physrep.2013.09.003
75) A Nanomechanical Fredkin Gate,
Josef-Stefan Wenzler, Tyler Dunn, Tommaso Toffoli, P. Mohanty, Nano Letters (2013)
http://dx.doi.org/10.1021/nl403268b
74) Observation of Nonlinear Dissipation in Piezoresistive Diamond Nanomechanical Resonators by Heterodyne Down-Mixing, Matthias Imboden, Oliver A. Williams, Pritiraj Mohanty, Nano Letters (2013).
http://dx.doi.org/10.1021/nl401978p
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73)Nonlinear dissipation in diamond nanoelectromechanical resonators,
Matthias Imboden, Oliver A. Williams, Pritiraj Mohanty, Appl. Phys. Lett. 102, 103502 (2013)
http://dx.doi.org/10.1063/1.4794907
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72)Diamond Nano-electro-mechanical Systems (Review),
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M.Imboden and P. Mohanty, Invited Review in Nanodiamond (Royal Society of Chemistry Publishing, London) (2013)
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71)Tunable nanowire Wheatstone bridge for improved sensitivity in molecular recognition
Carsten Maedler, S. Erramilli, L. J. House, M. K. Hong, and P. Mohanty, Appl. Phys. Lett. 102, 043112 (2013)
http://dx.doi.org/10.1063/1.4789994
70) Nanosensors for Breast Cancer Diagnosis
Pritiraj Mohanty, Y. Chen, X. Wang, M. K. Hong, C. L. Rosenberg, D. T. Weaver and S. Erramilli
Invited Review in Biosensors and Molecular Technologies for Cancer Diagnostics, edited by K. H. Herold and A. Rasooly (CRC Press, 2012) Link BreastCancerReview.pdf
69) Energy measurement in nonlinearly coupled nanomechanical modes
A. Gaidarzhy, J. Dorignac, G. Zolfagharkhani, M. Imboden and P. Mohanty, Appl. Phys. Lett., 98, 264106 (2011)
http://dx.doi.org/10.1063/1.3604797
68) Nanoelectronic detection of breast cancer biomarker
Y. Chen, X. Wang, M. K. Hong, C. L. Rosenberg, B. M. Reinhard, S. Erramilli and P. Mohanty, Appl. Phys. Lett., 97, 233702 (2010)
http://dx.doi.org/10.1063/1.3519983
67) Anharmonic modal coupling in a bulk micromechanical resonator
T. Dunn, J. Wenzler and P. Mohanty, Appl. Phys. Lett., 97, 123109 (2010)
http://dx.doi.org/10.1063/1.3489423
66) A Noise-Assisted Reprogrammable Nanomechanical Logic Gate
D. N. Guerra, A. R. Bulsara, W. L. Ditto, S. Sinha, K. Murali and P. Mohanty, Nano Lett., 10, 1168 (2010)
http://dx.doi.org/10.1021/nl9034175
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65)High Performance MEMS Oscillators for Communications Applications,
in Proceedings of Fourth International Symposium on Acoustic Wave Devices, Chiba University (March 2010).
High Performance MEMS Oscillators for Communications Applications.pdf)
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64)TCMO: A Versatile MEMS Oscillator Timing Platform
in Proceedings of 41st Annual Precise Time and Time Interval (PTTI) Systems and Applications Meeting (November 2009). (TCMO - A Versatile MEMS Oscillator Timing Platform.pdf
63) Signal amplification by 1/f noise in silicon-based nanomechanical resonators
D. N. Guerra, T. Dunn and P. Mohanty, Nano Lett., 9 (9), 3096 (2009)
http://dx.doi.org/10.1021/nl9004546
62) Noise color and asymmetry in stochastic resonance with silicon nanomechanical resonators
T. Dunn, D. N. Guerra and P. Mohanty, Eur. Phys. J. B 69, 5 (2009) EPJB
61) Nanomechanical Resonators
J. Wenzler, M. Imboden, T. Dunn, D. N. Guerra, and P. Mohanty, In ‘Handbook of Nanophysics’ (ed. K. Sattler), (Taylor & Francis, New York, 2010) (CRC)
60) Arbitrary distribution and nonlinear modal interaction in coupled nanomechanical resonators
J. Dorignac, A. Gaidarzhy, and P. Mohanty, J. Appl. Phys. 105, 103520 (2009) J. Appl. Phys.
59) Evidence of universality in the dynamical response of micromechanical ultra-nanocrystalline diamond resonators at millikelvin temperatures, M. Imboden and P. Mohanty, Phys. Rev. B 79, 125424 (2009) PRB
58) Nanomechanical detection of itinerant electron spin flip
G. Zolfagharkhani, A. Gaidarzhy, P. Degiovanni, S. Kettemann, P. Fulde, and P. Mohanty, Nature Nanotechnology 3, 720 – 723 (2008) Nature Nanotech local pdf
57) Nanoelectromechanical system-integrated detector with silicon nanomechanical resonator and silicon nanochannel field effect transistor
J. Wenzler, T. Dunn, S. Erramilli and Pritiraj Mohanty, J. Appl. Phys. 105, 094308 (2009) J. Appl. Phys.
56) Response spectrum of coupled nanomechanical resonators
J. Dorignac, A. Gaidarzhy and Pritiraj Mohanty, J. Appl. Phys. 104, 073532 (2008) J. Appl. Phys. local pdf
55) Electrostatically actuated silicon-based nanomechanical switch at room temperature
D. N. Guerra, M. Imboden and Pritiraj Mohanty , Appl. Phys. Lett. 93, 033515 (2008) APL local pdf
54) Measurement of Aharonov-Bohm oscillations in mesoscopic metallic rings in the presence of a high-frequency electromagnetic field, J. Wenzler and Pritiraj Mohanty, Phys. Rev. B 77, 121102® (2008) PRB local pdf
53) Surface-modified silicon nano-channel for urea sensing
Y. Chen, X. Wang, M. Hong, S. Erramilli and Pritiraj Mohanty, Sensors and Actuators B 133, Issue 2, 593-598 (2008) Sens. and Ac. B local pdf
52) Model of response spectrum and modal interaction in coupled nanomechanical resonators
J. Dorignac, A. Gaidarzhy, Pritiraj Mohanty, arXiv:0802.4267 (2008) condmat local pdf
51) Quantum Nanomechanics
Pritiraj Mohanty, In ‘Applications of Nonlinear Dynamics’, edited by V. In, P. Longhini, and A. Palacios (Springer, Berlin, 2009), p. 25. condmat local pdf
50) Channel-Width Dependent Enhancement in Nanoscale Field Effect Transistor
X. Wang, Y. Chen, M. K. Hong, S. Erramilli, Prititraj Mohanty, arXiv:0802.2140 (2008) condmat local pdf
49) Silicon-based Nanochannel Glucose Sensor
X. Wang, Y. Chen, K. A. Gibney, S. Erramilli, and Pritiraj Mohanty, Appl. Phys. Lett. 92, 013903 (2008) APL local pdf
48) Nanoscale Field Effect Transistors for Biomolecular Signal Amplification
Y. Chen, X. Wang, M. K. Hong, S. Erramilli, Pritiraj Mohanty and C. Rosenberg, Appl. Phys. Lett. 91, 243511 (2007) APL local pdf
47) Synchronized Oscillation in Coupled Nanomechanical Oscillators
S. Shim, M. Imboden, Pritiraj Mohanty, Science 316, 95 (2007) Science local pdf
46) High Quality Factor Gigahertz Frequency in Nanomechanical Diamond Resonators
A. Gaidarzhy, M. Imboden, Pritiraj Mohanty, J. Rankin and B. W. Sheldon, Appl. Phys. Lett. 91, 203503 (2007) APL local pdf
45) Micromechanical Resonators Fabricated from Lattice-Matched & Etch-Selective GaAs/InGaP/GaAs Heterostructures
S. B. Shim, J. S. Chun, S. W. Kang, S. W. Cho, S. W. Cho, Y. D. Park, Pritiraj Mohanty, N. Kim and J. Kim , Appl. Phys. Lett. 91, 133505 (2007) APL local pdf
44) Electron Coherence at Low Temperatures: The role of magnetic impurities
Laurent Saminadayar, Pritiraj Mohanty, Richard A. Webb, Pascal Degiovanni, and Christopher Bauerle, Physica E 40, 12 (2007) Physica E local pdf
43) Scaling of dissipation in megahertz-range micromechanical diamond oscillators
Matthias Imboden, Pritiraj Mohanty, Alexei Gaidarzhy, Janet Rankin, and Brian W. Sheldon, Appl Phys Lett 90, 173502 (2007) APL local pdf
42) Dynamical Response of Nanomechanical Oscillators in Immiscible Viscous Fluid for in vitro Biomolecular Recognition
Jerome Dorignac, Agnieszka Kalinowski, Shyamsunder Erramilli, and Pritiraj Mohanty, Phys. Rev. Lett. 96, 186105 (2006) PRL local pdf
41) Silicon-based Nanoelectronic Field-Effect pH Sensor with Local Gate Control
Yu Chen, Xihua Wang, Shyamsunder Erramilli, Pritiraj Mohanty, and Agnieszka Kalinowski, Appl. Phys. Lett. 89, 223512 (2006) APL local pdf
40) Quantized Displacement in Nanomechanical Oscillators at Millikelvin Temperatures
A. Gaidarzhy, G. Zolfagharkhani, R. L. Badzey, and Pritiraj Mohanty, AIP Conference Proceedings — September 7, 2006 — Volume 850, pp. 1677-1678 AIP Conf. Proc. local pdf
39) Coherent Signal Amplification in a Nanomechanical Oscillator via Stochastic Resonance
Robert L. Badzey and Pritiraj Mohanty, AIP Conference Proceedings — September 7, 2006 — Volume 850, pp. 1675-1676 AIP Conf. Proc. local pdf
38) Coherent Signal Amplification in Bistable Nanomechanical Oscillators by Stochastic Resonance
Robert L. Badzey and Pritiraj Mohanty, Nature 437, 995 (2005) Nature local pdf
37) Nano-oscillators get it together (Commentary)
Pritiraj Mohanty, Nature 437, 325 (2005) Nature local pdf
36) Signal Processing and Control in Nonlinear Nanomechanical Systems
R.L. Badzey, G. Zolfagharkhani, S.-B. Shim, A. Gaidarzhy and Pritiraj Mohanty, (Springer-Verlag) (2005) Springer-Verlag local pdf
35) Quantum Friction in Nanomechanical Oscillators at Millikelvin Temperatures
Guiti Zolfagharkhani, Alexei Gaidarzhy, Seung-Bo Shim, Robert L. Badzey, and Pritiraj Mohanty, Phys. Rev. B 72, 224101 (2005) PRB local pdf
34) Reply to the Comment on “Evidence for Quantized Displacement…”
A. Gaidarzhy, G. Zolfagharkhani, R. L. Badzey, and Pritiraj Mohanty, Phys. Rev. Lett. 95, 248902 (2005) PRL local pdf
33) Spectral Response of a Gigahertz-Range Nanomechanical Oscillator
Alexei Gaidarzhy, Guiti Zolfagharkhani, Robert L. Badzey, and Pritiraj Mohanty , Appl. Phys. Lett. 86, 254103 (2005) APL local pdf
32) Evidence for Quantized Displacement in Macroscopic Nanomechanical Oscillators
Alexei Gaidarzhy, Guiti Zolfagharkhani, Robert L. Badzey and Pritiraj Mohanty , Phys. Rev. Lett. 94, 030402 (2005) PRL local pdf
31) Temperature Dependence of a Nanomechanical Memory Switch
Robert L. Badzey, Guiti Zolfagharkhani, Alexei Gairdazhy, Pritiraj Mohanty, Appl. Phys. Lett. 86, 023106 (2005) APL local pdf
30) A Controllable Nanomechanical Memory Element
Robert L. Badzey, Guiti Zolfagharkhani, Alexei Gairdazhy, Pritiraj Mohanty, Appl. Phys. Lett. 85, 3587 (2004) APL local pdf
29) A Spin-Mechanical Device for the Detection and Control of Spins with Nanomechanical Torque
Pritiraj Mohanty, G. Zolfagharkhani, S. Kettemann, P. Fulde, Phys. Rev. B 70, 195301 (2004) PRB local pdf
28) Nanoscale High-Temperature Superconductivity
Pritiraj Mohanty, J.Y.T. Wei, V. Ananth, P. Morales, W. Skocpol, Physica C 408-410, 666 (2004) Physica C local pdf
27) “Possible Violation of One-Parameter Scaling Hypothesis: Anomalous Conductance Distribution of Gold Nanowires” (Reply)
Pritiraj Mohanty & Richard A. Webb, Phys. Rev. Lett. 93, 159702 (2004) PRL local pdf
26) High-Field Measurement of Electron Decoherence in Metallic Nanowires: Switching off Magnetic Impurity Spins
Pritiraj Mohanty and Richard A.Webb, Phys. Rev. Lett. 91, 066604 (2003) PRL local pdf
25) Quantum Friction of Micro-Mechanical Resonators at Low Temperatures
Kang-Hun Ahn and Pritiraj Mohanty, Phys. Rev. Lett. 90, 085504 (2003) PRL local pdf
24) Electron Decoherence by a Single Spin
Pritiraj Mohanty, J. Phys. Soc. Jap. 72, 13 (2003) J. Phys. Soc. Jap. local pdf
23) Anomalous Conductance Distribution in Quasi-One Dimensional Gold Wires: Possible Violation of One-Parameter Scaling Hypothesis
Pritiraj Mohanty and Richard A. Webb, Phys. Rev. Lett. 88, 146601 (2002) PRL local pdf
22) Intrinsic Dissipation in High-Frequency Micromechanical Resonators
Pritiraj Mohanty , D. A. Harrington, K. L. Ekinci, Y. T. Yang, M. J. Murphy, and M. L. Roukes, Phys. Rev. B 66, 085416 (2002) PRB local pdf
21) Of Decoherent Electrons and Disordered Conductors
Pritiraj Mohanty
(Lectures at the NATO Advanced Study Institute at Geilo, Norway (2002), Published in “Complexity from Microscopic to Macroscopic Scales: Coherence and Large Deviations” Edited by A.T. Skjeltorp and T. Vicsek (Kluwer, Dordercht, 2002) local pdf
20) Diamagnetic Persistent Current in Normal Metals
E.M.Q. Jariwala, Pritiraj Mohanty, M.B. Ketchen, R.A. Webb, Phys. Rev. Lett. 86, 1594 (2001), PRL local pdf
19) Dephasing of electrons by two-level systems in quantum dots
K. Ahn, Pritiraj Mohanty, Phys. Rev. B 63, 195301 (2001), PRL local pdf
18) Electron decoherence at zero tempetaure: the phenomenology and associated difficulties
Pritiraj Mohanty, Proceedings of the NATO advanced workshop on Size-Dependent Magnetic Scattering, edited by V. Chandrasekhar, C. van Haesendonck, & A. Zawadowski, (Kluwer Academic Publishers, 2001), local pdf
17) Low Temperature Anomaly in Mesoscopic Kondo Wires
Pritiraj Mohanty and Richard A.Webb, Phys. Rev. Lett. 84, 4481 (2000), PRL local pdf
16) An Analytic Description of Light Emission in Sonoluminescence
Pritiraj Mohanty, cond-mat/9912271 (2000), cond-mat
15) Electromagnetic Field Correlation inside a Sonoluminescing Bubble
Pritiraj Mohanty, cond-mat/0005233 (2000), cond-mat
14) Notes on Decoherence at Absolute Zero
Pritiraj Mohanty, Physica B 280, 446 (2000), Physica B local pdf
13) Measurement of Small Forces in Micron-sized Resonators
Pritiraj Mohanty, D.A. Harrington, M.L. Roukes, Physica B 284-288, 2143 (2000), Physica B local pdf
12) Energy dissipation in suspended micromechanical resonators at low temperatures
D.A. Harrington, Pritiraj Mohanty, M.L. Roukes, Physica B, 284-288, 2145 (2000), Physica B local pdf
11) Persistent Current in Normal Metals
Pritiraj Mohanty, Annalen der Physik (Leipzig) 8, 549 (1999), Annalen der Physik local pdf
10) Insulator-Metal Crossover near Optimal Doping in PCCO: Anomalous Normal-State Resistivity
P. Fournier, Pritiraj Mohanty, et al., Phys. Rev. Lett. 81, 4720 (1998), PRL local pdf
9) Sonoluminescence as a Manybody Cooperative Phenomenon
Pritiraj Mohanty, S.V. Khare, Phys. Rev. Lett. 80, 189 (1998), PRL local pdf
8) “New measurements of decoherence rate” in Quantum Coherence and Decoherence
R. A. Webb, Pritiraj Mohanty & E. M. Q. Jariwala, eds. K. Fujikawa and Y. Ono, (North Holland 1998).
7) Intrinsic decoherence and loss of Fermi-liquid behavior in mesoscopic systems
R. A. Webb, Pritiraj Mohanty & E. M. Q. Jariwala, Fortschritte der Physik 46, 779 (1998), Fortschritte der Physik
6) Decoherence and Quantum Fluctuations, Pritiraj Mohanty, R.A. Webb
Phys. Rev. B 55, R13452 – R13455 (1997), PRB local pdf
5) Intrinsic Decoherence in Mesoscopic Systems
Pritiraj Mohanty, E.M.Q. Jariwala, R.A. Webb, Phys. Rev. Lett. 78, 3366 (1997), PRB local pdf
4) New measurements of persistent current in gold rings
Pritiraj Mohanty, E. M. Q. Jariwala, M. B. Ketchen & R. A. Webb, in Quantum Coherence and Decoherence, edited by K. Fujikawa and Y. Ono (North Holland 1996).
3) Scars in diffusive quantum dots
Pritiraj Mohanty & R. Webb, in Localization 96, edited by T. Dietl (1996).
2) Persistent current in an array of gold rings
Pritiraj Mohanty, E. M. Q. Jariwala, M. B. Ketchen, R. A. Webb, in Localization 96, edited by T. Dietl (1996).
1) A study of the long-term behavior of the SU URSAE MAJORIS dwarf novae VW Hydri and Z Chamaeleontis
Pritiraj Mohanty & Eric M. Schlegel, Astrophys. Jour. 449, 330 (1995), adsabs.harvard
Note: local pdfs are for internal “fair use” only.
PATENTS:
22) 9,383,208: Electromechanical magnetometer and application thereof
21) 9,276,564: Noise-assisted reprogrammable nanomechanical logic gate and method
20) 9,030,080: Micro-electro-mechanical systems (MEMS) resonators and related apparatus and methods
19) 9,000,854: Timing oscillator having a non-linear MEMS resonator and related methods
18) 9,000,848: Noise reduction in MEMS oscillators and related apparatus and methods
17) 8,947,171: Coupled timing oscillators
16) 8,772,999: Signal amplification by hierarchical resonating structures (Link)
15) 8,698,376: Micorelectromechanical (MEMS) resonators and related apparatus and methods (Link)
14) 8,661,899: Microelectromechanical gyroscopes and related apparatus and methods (Link)
13) 8,638,179: Micromechanical resonating devices and related methods (Link)
12) 8,587,183: Microelectromechanical systems (MEMS) resonators and related apparatus and methods (Link)
11) 8,487,715: Nano electromechanical integrated-circuit bank and switch (Link)
10) 8,476,809: Microelectromechanical systems (MEMS) resonators and related apparatus and methods (Link)
9) 8,446,078: Mechanical resonating structures and methods (Link)
8) 8,436,637: Noise-assisted reprogrammable nanomechanical logic gate and method (Link)
7) 8,314,665: Nano electromechanical integrated-circuit filter (Link)
6) 8,111,108: Micromechanical resonating devices and related methods (Link)
5) 8,063,535: Nanomechanical oscillator (Link)
4) 8,044,737: Timing oscillators and related methods (Link)
3) 8,044,736: Timing oscillators and related methods (Link)
2) 7,990,229: Methods and devices for compensating a signal using resonators (Link)
1) 7,352,608: Controllable nanomechanical memory element (Link)
P u b l i c a t i o n s
