TTU Physics: Postdoctoral Research Associate
Rick (P. W.) Mengyan, Ph.D.
Postdoctoral Research Associate
Office Phone: (806) 834-0503
Email:
Rick.Mengyan 'at' ttu_dot_edu
Office: Off Campus
Ph.D. Physics, Texas Tech University (2014)
B.Sc. Physics, Northern Michigan University (2007)
B.Sc. Mathematics, Northern Michigan University (2007)
Psychology, Northern Michigan University (2007)
Teaching Links
Current
Past
Winter 2016: Principles of Physics I [Calculus-based]
(PHYS 1408-001 CRN: 45473 and 1408-004 CRN: 54556)
Winter 2016: Intermediate Physics Lab (PHYS 3304 CRN: 46372)
Fall 2015:
Principles of Physics I [Calculus-based] (PHYS 1408-003 CRN: 29508)
Winter 2015:
General Physics I [Algebra-based] (PHYS 1403-002 CRN: 40292)
Winter 2015: Intermediate Physics Lab (PHYS 3304 CRN: 46372)
Fall 2014: General Physics I [Algebra-based] (Phys 1403-001)
Research Interests and Personal Bio
My field is experimental condensed
matter Physics. I am currently working on a few projects and one
interest resides in the investigation of the microscopic
distribution of magnetic fields within magnetic semiconducting
materials with the prospects of potential applications in spin
electronics. During the course of this particular investigation,
we have found evidence of, what we believe to be, spin polarons
in several types of magnetic materials as well as some
superconducting materials. Some preliminary results seem to
suggest that the spin polaron may be directly related
various exotic magnetic ordering (ie.
helical, etc) or give rise to other
unique properties such as magnetoresistive
behavior, metal to insulator transitions
and, in some cases, superconductivity.
The primary focus of my Ph.D. work
was in dilute magnetic semiconducting systems and their parent
compounds; specifically the investigation of the magnetic
features in Mn doped II-IV-V2 chalcopyrites (such as ZnGeP2:Mn)
as well as the Mn doped II-VI compounds (such as (Cd,Mn)Te).
With a combination of MuSR measurements, neutron scattering and
bulk magnetiztation (SQUID and AGM) measurements, we have determined that spin
polarons likely provide the transfer of magnetism from local moments (Mn) to
the charge carriers (holes) for which neither of the limiting cases for more standard
theories seem to apply. (Link to dissertation:
Magnetism in Mn-Doped Chalcopyrites).
Another current project is focused on probing the magnetism, metal to semiconductor transition
and properties of hydrogen in vanadium dioxide (VO2) compounds, via MuSR and neutron scattering.
The focus of this project is to characterize
the local electronic and magnetic environment in a variety of VO2 compounds where the implanted
muon acts as both an experimentally accessible analog to hydrogen and a very sensitive probe of
the local magnetic environment. While still in the early stages, preliminary results show a never before
detected (to our knowledge) low temperature magnetic phase in VO2 compounds (investigated thus far: VO2,
VO2:Ti, VO2:W) where the onset temperature is significantly higher in the doped materials. This project aims
to identify the source of the magnetic phase, characterize the muon/Hydrogen behavior and provide insight
into the highly debated source of the metal to semiconductor transition (including both structural and
electronic components) occurring near room temperature and can be tuned by adjusting the type and concentration
of the dopants. An additional goal is to determine the particular role that the dopants play in modifying these
transitions and related material properties. (Manuscripts are in preparation).
The main research technique that our group utilizes is MuSR, where the R stands for 'Research',
'Rotation', 'Resonance' or 'Relaxation' depending on the
specific application of the technique as being discussed.
Basically, we implant 100% spin polarized muons into a sample and monitor how they interact with the
host system based on the decay signature [e.g see: J.H.
Brewer, et al, "Mu+SR Spectroscopy: The Positive Muon as a
Magnetic Probe in Solids", Physica Scripta 11 (1974) 144-148].
This technique has a wide range of applications beyond being a
very sensitive probe of the magnetic environment, including the
ability to use Muonium (muon that has captured an electron) to
study Hydrogen-like defect centers in semiconducting materials
or a tool to study the Hydrogen atom chemistry in reactions that
would be otherwise unobservable. Additionally, the MuSR
technique can probe the superconducting properties such as the
radii of vortex cores, coherence lengths and penetration depths.
Other applications of the MuSR technique as well as additional
information regarding this experimental method can be found on
http://musr.ca.
The bulk of my research is carried out at two of the four MuSR
facilities, world-wide; TRIUMF
located in Vancouver, BC and the STFC ISIS facility at Rutherford
Appleton Lab located in Oxfordshire, UK. Independent of my MuSR
work, I am also participating in neutron scattering work at Oak
Ridge National Laboratory (PI: Dr. B.R. Carroll of
Arkansas State University) to further investigate some of the
magnetic properties of the Mn-doped chalcopyrite systems.
I am currently working with Dr. R.L.
Lichti's experimental condensed matter group
(Texas Tech University). Many of the projects in which I am actively involved
are part of collaborations with R.C. Vilao's group
(University of Coimbra, Portugal), Y.G. Celebi (Istanbul University, Turkey),
J.H. Brewer (University of British Columbia and TRIUMF, Canada), V.G. Storchak
(Kurchatov Institute, Russia), J.S. Lord (Rutherford Appleton Lab, UK),
A.J. Drew (Queen Mary University of London, UK) and B.R. Carroll
(Arkansas State University, USA).
Selected Publications:
Coupling of magnetic orders in La2CuO(4+x).
V.G. Storchak, J.H. Brewer, D.G. Eshchenko, P.W. Mengyan, O.E. Parfenov,
A.M. Tokmachev and P. Dosanjh. Phys Rev B 94 (2016)
134407 .
Isolated Hydrogen configurations in zirconia as
seen by muon spin spectroscopy and ab-initio calculations.
R.B.L. Vieira, R.C. Vilao, V.G. Marinopoulos, P.M. Gordo, J.A. Paixao,
H.V. Alberto, J.M. Gil, A. Weidinger, R.L. Lichti, B.B. Baker, P.W.
Mengyan and J.S. Lord. Phys Rev B 94 (2016) 115207
Spin gap in heavy fermion
compound UBe13.
V.G. Storchak, J.H. Brewer, D.G. Eshchenko, P.W.
Mengyan, O.E. Parfenov, A.M. Tokmachev, P. Dosanajh,
Z. Fisk, J.L. Smith.
N Journ Phys 18 (2016) 83029.
Electronic Structure of Interstitial Hydrogen in Lutetium Oxide from DFT+U Calculations and Comparison Study with MuSR Spectroscopy .
E. Lora da Silva, A.G. Marinopoulos, R.B.L. Vieira, R.C. Vilao, H.V. Alberto, J.M. Gil,
R.L. Lichti, P.W. Mengyan, B.B. Baker.
Phys Rev B
94 (2016) 014104.
The muonium donor in TiO2 and comparison with hydrogen .
R.C. Vilao, R.B.L. Vieira, H.V. Alberto, J.M. Gil, A. Weidinger, R.L. Lichti,
B.B. Baker, P.W. Mengyan and J.S. Lord.
Phys Rev B
92 (2015) 081202(R).
Intra-unit-cell magnetic order in stoichiometric La2CuO4.
V.G. Storchak, J.H. Brewer, D.G. Eshchenko, P.W. Mengyan,
O.E. Parfenov, A.M. Tokmachev, P. Dosanjh and S.N. Barilo.
Phys Rev B
91 (21 May 2015) 205122.
Spectroscopic identification of shallow
muonium acceptors in
Si0.06Ge0.94.
B.R. Carroll, R.L. Lichti, P.W. Mengyan,
B.B. Baker, Y.G. Celebi, P.J.C. King, K.H.
Chow and I. Yonenaga. Appl Phys Lett
105 (2014) 122101.
Magnetic order and muon
motion in VO2 .
P.W. Mengyan, R.L. Lichti, B.B. Baker and G. Jayarathna.
J Phys: Conf Ser 551 (2014)
012017.
Local magnetic order in La2CuO4 seen via mu+SR spectroscopy.
V.G. Storchak, J.H. Brewer, D.G. Eshchenko,
P.W. Mengyan, O.E. Parfenov, A.M. Tokmachev, P. Dosanjh and S.N. Barilo.
J Phys: Conf Ser 551 (2014)
012024.
Spin-polaron band in the ferromagnetic heavy-fermion superconductor UGe2.
V.G. Storchak, J.H. Brewer, D.G. Eshchenko, P.W. Mengyan, O.E. Parfenov and D. Sokolov.
J Phys: Conf Ser 551 (2014)
012016.
Search for ALCR-Mu+SR spin polaron resonances in Cd2Re2O7 and FeGa3.
J.H. Brewer, V.G. Storchak, D.G. Eshchenko, R.L. Lichti, P.W. Mengyan and D.J. Arseneau.
J Phys: Conf Ser 551 (2014)
012022.
High field study of muonium states in HfO2 and ZrO2.
R.B.L. Vieira, R.C. Vilao, H.V. Alberto, J.M. Gil, A. Weidinger, B.B. Baker, P.W. Mengyan and R.L. Lichti.
J Phys: Conf Ser 551 (2014)
012048.
Magnetic fields and fluctuations in weakly Mn doped ZnGeP2 .
P.W. Mengyan, R.L. Lichti, Y.G. Celebi, B.B. Baker, B.R. Carroll, E. Catak, K.T. Zawilski
and P.G. Schunenmann.
AIP Conf Proc 1583 (2014)
190.
Transition dynamics for
Mu acceptor centers in Si(1-x)Ge(x)
alloys.
G. Jayarathna, R.L. Lichti, P.W. Mengyan,
Y.G. Celebi, B.B. Baker, B.R. Carroll and I.
Yonenaga.
AIP Conf Proc 1583 (2014) 56.
Motional characteristics of positively charged muonium
defects in In2O3.
B.B. Baker, Y.G. Celebi, R.L. Lichti, P.W. Mengyan and E.
Catak. AIP Conf Proc 1583 (2014) 323.
Observation of magnetic polaron in the magnetoresistive pyrochlore Lu2V2O7 .
V.G. Storchak, J.H. Brewer, D.G. Eshchenko, P.W. Mengyan, H. Zhou and C.R. Wiebe.
Journal of Physics: Condensed Matter
25 (2013) 115601.
Antiferromagnetism in the spin-gap system NaV2O5: Muon spin rotation measurements.
V.G. Storchak, O.E. Parfenov, D.G. Eshchenko, R.L. Lichti, P.W. Mengyan, M. Isobe and Y. Ueda.
Phys Rev B
85 (2012) 094406.
Muonium Transitions in Si-Ge Alloys.
P.W. Mengyan, R.L. Lichti, Y.G. Celebi, B.R. Carroll, B.B. Baker, H.N. Bani-Salameh, I. Yonenaga.
Physica B: Condensed Matter.
407 (2012) 2829-2832.
Motion of Positively Charged Muonium in ZnO.
B.B. Baker, Y.G. Celebi, R.L. Lichti, P.W. Mengyan, H.N. Bani-Salameh, B.R. Carroll.
Physica B: Condensed Matter.
407 (2012) 2864-2866.
Muonium Dynamics in Transparent Conducting Oxides.
Y.G. Celebi, R.L. Lichti, B.B. Baker, P.W. Mengyan, H.N. Bani-Salameh.
Physica B: Condensed Matter.
407 (2012) 2879-2882.
Longitudinal Muon Spin Depolarization in Ge-Rich SiGe Alloys.
P.W. Mengyan, Y.G. Celebi, R.L. Lichti, B.R. Carroll, B.B. Baker, H.N. Bani-Salameh, I. Yonenaga.
Physica Procedia
30 (2012) 214-218.
Spin Polarons in Strongly Correlated Electron Materials.
V.G. Storchak, O.E. Parfenov, J.H. Brewer, D.G. Eshchenko, R.L. Lichti, P.W. Mengyan, D.J. Arseneau, B. Hitti.
Physica Procedia
30 (2012) 178-181.
Initial Study of Positively Charged Muonium Motion in ZnO, CdO, TiO2 and SnO2.
B.B. Baker, Y.G. Celebi, R.L. Lichti, P.W. Mengyan, H.N. Bani-Salameh, B.R. Carroll.
Physica Procedia
30 (2012) 101-104.
Motion of Mu+ in Transparent Conducting Oxides.
Y.G. Celebi, R.L. Lichti, B.B. Baker, P.W. Mengyan, H.N. Bani-Salameh.
Physica Procedia
30 (2012) 206-209.
Spin Polarons in the Correlated Metallic Pyrochlore Cd2Re2O7.
V.G. Storchak, J.H. Brewer, S.L. Stubbs, O. E. Parfenov, R.L.
Lichti, P.W. Mengyan, J.He, I.Bredeson, D. Hitchcock and D.
Mandrus. Phys Rev Lett.
105 (2010) 076402.
Hyperfine
Spectroscopy and Characterization of Muonium in ZnGeP2.
P.W. Mengyan, B.B. Baker, R.L. Lichti, K.H. Chow, Y.G. Celebi, K.T.
Zawilski and P.G. Schunemann.
Physica B: Condensed Matter. 404 (2009)
5121-5124.
Selected Research Presentations (Primary Author)
Magnetic order and muon motion in VO2.
(2014, Talk: 13th International Conference on Muon Spin Rotation, Relaxation and Resonance, Grindelwald, Switzerland)
Magnetic Fluctuations in ZnGeP2:Mn
(2013, Poster: International Conference on Defects in Semiconductors, ICDS-27, Bologna, Italy)
Probing Local Features in Dilute Magnetic Semiconducting ZnGeP2:Mn via Mu+SR
(2012, Poster: Joint Fall Meeting Texas Section of APS, AAPT and Zone 13 SPS, Lubbock, TX)
Probing Local Features in Dilute Magnetic Semiconducting ZnGeP2:Mn via Mu+SR
(2012, Poster: Gordon Research Conference: Defects in Semiconductors, Biddeford, ME)
Probing the Internal Magnetic Field Features of the II-IV-V2:Mn DMS via MuSR
(2012, Talk: Joint Spring 2012 Meeting of the Texas Sections of the APS, AAPT and Zone 13 of the SPS, San Angelo, TX)
Muonium Transitions in Ge-rich SiGe Alloys
(2011, Talk: International Conference on Defects in Semiconductors, ICDS-26, Nelson, New Zealand)
Longitudinal Muon Spin Depolarization in Bulk Si0.09Ge0.91
(2011, Poster: 12th International Conference on Muon Spin Rotation, Relaxation and Resonance, Cancun, Mexico)
Observing Spin Polarons in Magnetic Semiconducting and Various
Other Materials via Mu+SR
(2010, Poster: Gordon Research Conference: Defects in Semiconductors, New London, NH)
Hypserfine Spectroscopy and Characterization of Muonium Centers
in ZnGeP2
(2009, Talk: Texas Section APS Meeting, San Marcos, TX)
Hyperfine Spectroscopy and Characterization of Muonium in ZnGeP2
(2009, Poster: ICDS-25, St. Petersburg, Russia)
Select Awards
April 2016: Professor of the Year in Physics (Texas Tech University, Physics)
July 2015: Corbett Prize Finalist (28th International Conference on Defects in Semiconductors. Espoo, Finland)
June 2014: International Society for Muon Spectroscopy (ISMS) Young
Scientist Award
May 2014: Outstanding Ph.D. (TTU Department of Physics).
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