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21 results on '"Campbell, Marshall"'

1. Rydberg exciton states and near-infrared light-emitting diode in monolayer MoTe2 devices

Author

Rodriguez, Sebastian Yepez, Campbell, Marshall A., Liu, Jinyu, and Jauregui, Luis A.

Subjects
Condensed Matter - Materials Science, Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

Excitons, or bound electron-hole pairs, play a crucial role in the optical response of monolayer, 2H-phase transition-metal dichalcogenides (TMDs). They hold significant promise for the development of novel quantum opto-electronic devices due to their large binding energies and strong spin-orbit coupling. Among the monolayer TMDs, MoTe2 stands out because of its bandgap in the near-infrared (NIR) regime. Here, we report the experimental observation of NIR Rydberg excitons and conduction band-split charged excitons, in high-quality, boron nitride (BN)-encapsulated monolayer MoTe2 devices, probed by photoluminescence and electroluminescence spectroscopy. By employing a graphite bottom gate, we successfully modulate the emission intensity of various excitonic species. Additionally, our device fabrication process within an argon-filled glove box ensures clean TMD/metal electrode interfaces, enabling the construction of p-n junctions near the electrodes. Our work significantly advances our understanding of excitons in monolayer TMDs and contributes to the application of MoTe2 in NIR quantum opto-electronic devices.

Published
2024

3. Correlated Excitonic Signatures in a Nanoscale van der Waals Antiferromagnet

Author

Chandrasekaran, Vigneshwaran, DeLaney, Christopher R., Parobek, David, Lane, Christopher A., Zhu, Jian-Xin, Li, Xiangzhi, Zhao, Huan, Trinh, Cong Tai, Campbell, Marshall A., Jones, Andrew C., Schneider, Matthew M., Watt, John, Pettes, Michael T., Ivanov, Sergei A., Piryatinski, Andrei, Dunlap, David H., and Htoon, Han

Subjects
Condensed Matter - Materials Science, Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

Composite quasi-particles with emergent functionalities in spintronic and quantum information science can be realized in correlated materials due to entangled charge, spin, orbital, and lattice degrees of freedom. Here we show that by reducing the lateral dimension of correlated antiferromagnet NiPS3 flakes to tens of nanometers, we can switch-off the bulk spin-orbit entangled exciton in the near-infrared (1.47 eV) and activate visible-range (1.8 to 2.2 eV) transitions with charge-transfer character. These ultra-sharp lines (<120 ueV at 4.2 K) share the spin-correlated nature of the bulk exciton by displaying a Neel temperature dependent linear polarization. Furthermore, exciton photoluminescence lineshape analysis reveals a polaronic character via coupling with at-least 3 phonon modes and a comb-like Stark effect through discretization of charges in each layer. These findings augment the knowledge on the many-body nature of excitonic quasi-particles in correlated antiferromagnets and also establish the nanoscale platform as promising for maturing integrated magneto-optic devices.

Published
2023

4. Exceptional electronic transport and quantum oscillations in thin bismuth crystals grown inside van der Waals materials

Author

Chen, Laisi, Wu, Amy X., Tulu, Naol, Wang, Joshua, Juanson, Adrian, Watanabe, Kenji, Taniguchi, Takashi, Pettes, Michael T., Campbell, Marshall, Gadre, Chaitanya A., Zhou, Yinong, Chen, Hangman, Cao, Penghui, Jauregui, Luis A., Wu, Ruqian, Pan, Xiaoqing, and Sanchez-Yamagishi, Javier D.

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics, Condensed Matter - Materials Science
Abstract

Confining materials to two-dimensional forms changes the behavior of electrons and enables new devices. However, most materials are challenging to produce as uniform thin crystals. Here, we present a new synthesis approach where crystals are grown in a nanoscale mold defined by atomically-flat van der Waals (vdW) materials. By heating and compressing bismuth in a vdW mold made of hexagonal boron nitride (hBN), we grow ultraflat bismuth crystals less than 10 nanometers thick. Due to quantum confinement, the bismuth bulk states are gapped, isolating intrinsic Rashba surface states for transport studies. The vdW-molded bismuth shows exceptional electronic transport, enabling the observation of Shubnikov-de Haas quantum oscillations originating from the (111) surface state Landau levels, which have eluded previous studies. By measuring the gate-dependent magnetoresistance, we observe multi-carrier quantum oscillations and Landau level splitting, with features originating from both the top and bottom surfaces. Our vdW-mold growth technique establishes a platform for electronic studies and control of bismuth's Rashba surface states and topological boundary modes. Beyond bismuth, the vdW-molding approach provides a low-cost way to synthesize ultrathin crystals and directly integrate them into a vdW heterostructure.

Published
2022
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5. Experimental measurement of the intrinsic excitonic wavefunction

Author

Man, Michael K. L., Madéo, Julien, Sahoo, Chakradhar, Xie, Kaichen, Campbell, Marshall, Pareek, Vivek, Karmakar, Arka, Wong, E Laine, Al-Mahboob, Abdullah, Chan, Nicholas S., Bacon, David R., Zhu, Xing, Abdelrasoul, Mohamed, Li, Xiaoquin, Heinz, Tony F., da Jornada, Felipe H., Cao, Ting, and Dani, Keshav M.

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

An exciton, a two-body composite quasiparticle formed of an electron and hole, is a fundamental optical excitation in condensed-matter systems. Since its discovery nearly a century ago, a measurement of the excitonic wavefunction has remained beyond experimental reach. Here, we directly image the excitonic wavefunction in reciprocal space by measuring the momentum distribution of electrons photoemitted from excitons in monolayer WSe2. By transforming to real space, we obtain a visual of the distribution of the electron around the hole in an exciton. Further, by also resolving the energy coordinate, we confirm the elusive theoretical prediction that the photoemitted electron exhibits an inverted energy-momentum dispersion relationship reflecting the valence band where the partner hole remains, rather than that of conduction-band states of the electron., Comment: 27 pages

Published
2020

6. Directly visualizing the momentum forbidden dark excitons and their dynamics in atomically thin semiconductors

Author

Madéo, Julien, Man, Michael K. L., Sahoo, Chakradhar, Campbell, Marshall, Pareek, Vivek, Wong, E Laine, Mahboob, Abdullah Al, Chan, Nicholas S., Karmakar, Arka, Mariserla, Bala Murali Krishna, Li, Xiaoqin, Heinz, Tony F., Cao, Ting, and Dani, Keshav M.

Subjects
Condensed Matter - Materials Science, Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

Resolving the momentum degree of freedom of excitons - electron-hole pairs bound by the Coulomb attraction in a photoexcited semiconductor, has remained a largely elusive goal for decades. In atomically thin semiconductors, such a capability could probe the momentum forbidden dark excitons, which critically impact proposed opto-electronic technologies, but are not directly accessible via optical techniques. Here, we probe the momentum-state of excitons in a WSe2 monolayer by photoemitting their constituent electrons, and resolving them in time, momentum and energy. We obtain a direct visual of the momentum forbidden dark excitons, and study their properties, including their near-degeneracy with bright excitons and their formation pathways in the energy-momentum landscape. These dark excitons dominate the excited state distribution - a surprising finding that highlights their importance in atomically thin semiconductors., Comment: 34 pages

Published
2020
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7. Moir\'e Excitons in Van der Waals Heterostructures

Author

Tran, Kha, Moody, Galan, Wu, Fengcheng, Lu, Xiaobo, Choi, Junho, Singh, Akshay, Embley, Jacob, Zepeda, André, Campbell, Marshall, Kim, Kyounghwan, Rai, Amritesh, Autry, Travis, Sanchez, Daniel A., Taniguchi, Takashi, Watanabe, Kenji, Lu, Nanshu, Banerjee, Sanjay K., Tutuc, Emanuel, Yang, Li, MacDonald, Allan H., Silverman, Kevin L., and Li, Xiaoqin

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

In van der Waals (vdW) heterostructures formed by stacking two monolayer semiconductors, lattice mismatch or rotational misalignment introduces an in-plane moir\'e superlattice. While it is widely recognized that a moir\'e superlattice can modulate the electronic band structure and lead to novel transport properties including unconventional superconductivity and insulating behavior driven by correlations, its influence on optical properties has not been investigated experimentally. We present spectroscopic evidence that interlayer excitons are confined by the moir\'e potential in a high-quality MoSe2/WSe2 heterobilayer with small rotational twist. A series of interlayer exciton resonances with either positive or negative circularly polarized emission is observed in photoluminescence, consistent with multiple exciton states confined within the moir\'e potential. The recombination dynamics and temperature dependence of these interlayer exciton resonances are consistent with this interpretation. These results demonstrate the feasibility of engineering artificial excitonic crystals using vdW heterostructures for nanophotonics and quantum information applications.

Published
2018
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8. Evidence for moiré excitons in van der Waals heterostructures

Author

Tran, Kha, Moody, Galan, Wu, Fengcheng, Lu, Xiaobo, Choi, Junho, Kim, Kyounghwan, Rai, Amritesh, Sanchez, Daniel A., Quan, Jiamin, Singh, Akshay, Embley, Jacob, Zepeda, André, Campbell, Marshall, Autry, Travis, Taniguchi, Takashi, Watanabe, Kenji, Lu, Nanshu, Banerjee, Sanjay K., Silverman, Kevin L., Kim, Suenne, Tutuc, Emanuel, Yang, Li, MacDonald, Allan H., and Li, Xiaoqin

Published
2019
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9. Correlated Excitonic Signatures in a Nanoscale van der Waals Antiferromagnet

Author

Htoon, Han, primary, Chandrasekaran, Vigneshwaran, additional, DeLaney, Christopher, additional, Parobek, David, additional, Lane, Christopher, additional, Zhu, Jian-Xin, additional, Li, Xiangzhi, additional, Zhao, Huan, additional, Trinh, Cong, additional, Campbell, Marshall, additional, Jones, Andrew, additional, Schneider, Matthew, additional, Watt, John, additional, Pettes, Michael, additional, Ivanov, Sergei, additional, Piryatinski, Andrei, additional, and Dunlap, David, additional

Published
2023
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10. Ultrathin crystals of bismuth grown inside atomically-smooth van der Waals materials

Author

Chen, Laisi, Wu, Amy X., Tulu, Naol, Wang, Joshua, Juanson, Adrian, Watanabe, Kenji, Taniguchi, Takashi, Pettes, Michael T., Campbell, Marshall, Gadre, Chaitanya A., Zhou, Yinong, Chen, Hangman, Cao, Penghui, Jauregui, Luis A., Wu, Ruqian, Pan, Xiaoqing, and Sanchez-Yamagishi, Javier D.

Subjects
Condensed Matter - Materials Science, Condensed Matter - Mesoscale and Nanoscale Physics, Mesoscale and Nanoscale Physics (cond-mat.mes-hall), Materials Science (cond-mat.mtrl-sci), FOS: Physical sciences
Abstract

Confining materials to two-dimensional forms changes the behavior of electrons and enables new devices. However, most materials are challenging to produce as uniform thin crystals. We present a new synthesis approach where crystals are grown in a nanoscale mold defined by atomically-flat van der Waals (vdW) materials. By heating and compressing bismuth in a vdW mold made of hexagonal boron nitride, we produce ultrathin crystals less than 10 nanometers thick with flat surfaces. Cryogenic measurements of the ultrathin bismuth demonstrate high-quality electronic transport exhibiting quantum oscillations and a 10x larger residual resistance ratio compared to thin films grown by molecular beam epitaxy. Our vdW mold-growth technique enables intrinsic transport studies of ultrathin bismuth, and also holds promise to achieve two-dimensional bismuthene, a large-gap 2D topological insulator. Beyond bismuth, this approach provides a general way to synthesize ultrathin forms of non-vdW materials that are directly integrated into a vdW heterostructure.

Published
2022
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11. Experimental measurement of the intrinsic excitonic wave function

Author

Man, Michael K. L., primary, Madéo, Julien, additional, Sahoo, Chakradhar, additional, Xie, Kaichen, additional, Campbell, Marshall, additional, Pareek, Vivek, additional, Karmakar, Arka, additional, Wong, E Laine, additional, Al-Mahboob, Abdullah, additional, Chan, Nicholas S., additional, Bacon, David R., additional, Zhu, Xing, additional, Abdelrasoul, Mohamed M. M., additional, Li, Xiaoqin, additional, Heinz, Tony F., additional, da Jornada, Felipe H., additional, Cao, Ting, additional, and Dani, Keshav M., additional

Published
2021
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12. Directly visualization of excitonic wavefunction in 2D semiconductors by angle resolved photoemission spectroscopy

Author

Man, Michael K. L., primary, Madéo, Julien, additional, Sahoo, Chakradhar, additional, Xie, Kaichen, additional, Campbell, Marshall, additional, Pareek, Vivek, additional, Karmakar, Arka, additional, Wong, E Laine, additional, Al-Mahboob, Abdullah, additional, Chan, Nicholas S., additional, Bacon, David R., additional, Zhu, Xing, additional, Abdelrasoul, Mohamed, additional, Li, Xiaoquin, additional, Heinz, Tony F., additional, da Jornada, Felipe H., additional, Cao, Ting, additional, and Dani, Keshav M., additional

Published
2021
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13. Time-resolved ARPES of excitons in a 2D semiconductor

Author

Madéo, Julien, primary, Man, Michael K. L., additional, Sahoo, Chakradhar, additional, Campbell, Marshall, additional, Pareek, Vivek, additional, Wong, E Laine, additional, Al-Mahboob, Abdullah, additional, Chan, Nicholas S., additional, Karmakar, Arka, additional, Mariserla, Bala Murali Krishna, additional, Li, Xiaoqin, additional, Heinz, Tony F., additional, Cao, Ting, additional, and Dani, Keshav M., additional

Published
2021
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14. Directly visualizing the momentum-forbidden dark excitons and their dynamics in atomically thin semiconductors

Author

Madéo, Julien, primary, Man, Michael K. L., additional, Sahoo, Chakradhar, additional, Campbell, Marshall, additional, Pareek, Vivek, additional, Wong, E. Laine, additional, Al-Mahboob, Abdullah, additional, Chan, Nicholas S., additional, Karmakar, Arka, additional, Mariserla, Bala Murali Krishna, additional, Li, Xiaoqin, additional, Heinz, Tony F., additional, Cao, Ting, additional, and Dani, Keshav M., additional

Published
2020
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15. Forging a labor-management partnership: the Magma Copper experience

Author

Bohlander, George W. and Campbell, Marshall H.

Subjects
Magma Copper Co. -- Labor relations, Labor relations -- Case studies, Collective bargaining -- Analysis, Industrial cooperation -- Analysis, Copper industry -- Labor relations, Business, Economics, Human resources and labor relations
Published
1994

16. Problem-solving bargaining and work redesign: Magma Copper's labor-management partnership

Author

Bohlander, George W. and Campbell, Marshall H.

Subjects
Magma Copper Co. -- Labor relations, Problem solving -- Economic policy, Collective bargaining -- Economic policy, Business
Abstract

Magma Copper Co. (Tucson, AZ), integrated electrolytic copper producer, signed an innovative problem-solving labour agreement with its nine unions in 1991. The firm and the unions agreed to recognise the relation between job security and productivity in maintaining the firm's economic viability. They agreed to develop communication programs jointly, and to be honest about their individual aims. Both sides also committed themselves to moving towards joint problem solving rather than collective bargaining., Faced with high operating costs and confrontational labor relations, Magma Copper Company and its unions embarked on a labor-management partnership unique to the mining industry. This article explains this innovative [...]

Published
1993

19. Proposal 5: K-16 funding - Pro: Crucial for economy

Author

Campbell, Marshall

Subjects
Michigan -- Education policy, Michigan -- Economic aspects, Public schools -- Government finance, Public schools -- Laws, regulations and rules, State aid to education -- Laws, regulations and rules, Government regulation, Business, Business, regional
Abstract

The proposed law would increase current funding by approximately $565 million and require the state to provide annual funding increases equal to the rate of inflation for public schools, intermediate [...]

Published
2006

21. Australian Breast Device Registry

Author

Ingrid Hopper, Emily Jane Parker, Breanna Pellegrini, Catherine Monica Mulvany, Marie Pase, Susannah Ahern, Arul Earnest, Rodney Dean Cooter, Elisabeth Elder, Colin Campbell Marshall Moore, and John James McNeil

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