Your search keyword '"Martin, Michael J"' showing total 547 results

1. Coherence Preserving Leakage Detection and Cooling in Alkaline Earth Atoms

Author

Omanakuttan, Sivaprasad, Buchemmavari, Vikas, Martin, Michael J., and Deutsch, Ivan H

Subjects

Quantum Physics, Physics - Atomic Physics

Abstract

Optically trapped atoms in arrays of optical tweezers have emerged as a powerful platform for quantum information processing given the recent demonstrations of high-fidelity quantum logic gates and on-demand reconfigurable geometry. Both in gate operations and atomic transport, additional errors will occur due to leakage out of the computation space, atomic motional heating, or loss of an atom out of a trap completely. In this work, we address these error channels in a unified manner through laser fluorescence that can detect and cool the atom without disturbing the quantum information encoded therein. As only the electrons in the atom couple directly to the laser field, such quantum nondemolition (QND) processes are made possible by encoding quantum information in the nuclear spin of alkaline earth-like atoms and avoiding the effects of the hyperfine interaction which couples it to the electrons. By detuning a fluorescence laser off-resonantly from the $\mathrm{^1S_0} \rightarrow \mathrm{^1P_1}$ transition, far compared to the (small) hyperfine spitting, optical pumping between nuclear states falls off rapidly with detuning, scaling as $~1/\Delta^4$. In contrast, Rayleigh scattering falls off as $~1/\Delta^2$. We also consider a resonant leakage detection protocol off the $^1\mathrm{P}_1$ line. This is achieved by disabling the hyperfine coupling via a strong AC stark effect and canceling the residual lightshifts via dressing. The same scheme can be used to recool the atoms towards the vibrational ground state for the quantum information encoded in the ground state of alkaline earth atoms while preserving the coherence. These advances could significantly improve the prospect of neutral atoms for fault-tolerant quantum computation., Comment: Comments and suggestions are Welcome!

Published

2024

2. Sharing the Road with Burton Holmes and Dr. Jones: Mapping Fitzgerald’s “The Cruise of the Rolling Junk” and the American Road Narrative

Author

Martin, Michael J.

Published

2018

3. Convergence of Iterative Quadratic Programming for Robust Fixed-Endpoint Transfer of Bilinear Systems

Author

Baker, Luke S., de Lima, Andre Luiz P., Zlotnik, Anatoly, Li, Jr-Shin, and Martin, Michael J.

Subjects

Mathematics - Optimization and Control, Quantum Physics, 34H05, 65K10, 90C55

Abstract

We present a computational method for open-loop minimum-norm control synthesis for fixed-endpoint transfer of bilinear ensemble systems that are indexed by two continuously varying parameters. We suppose that one ensemble parameter scales the homogeneous, linear part of the dynamics, and the second parameter scales the effect of the applied control inputs on the inhomogeneous, bilinear dynamics. This class of dynamical systems is motivated by robust quantum control pulse synthesis, where the ensemble parameters correspond to uncertainty in the free Hamiltonian and inhomogeneity in the control Hamiltonian, respectively. Our computational method is based on polynomial approximation of the ensemble state in parameter space and discretization of the evolution equations in the time domain using a product of matrix exponentials corresponding to zero-order hold controls over the time intervals. The dynamics are successively linearized about control and trajectory iterates to formulate a sequence of quadratic programs for computing perturbations to the control that successively improve the objective until the iteration converges. We use a two-stage computation to first ensure transfer to the desired terminal state, and then minimize the norm of the control function. The method is demonstrated for the canonical uniform transfer problem for the Bloch system that appears in nuclear magnetic resonance, as well as the matter-wave splitting problem for the Raman-Nath system that appears in ultra-cold atom interferometry.

Published

2024

4. Optimal Ensemble Control of Matter-Wave Splitting in Bose-Einstein Condensates

Author

de Lima, Andre Luiz P., Harter, Andrew K., Martin, Michael J., and Zlotnik, Anatoly

Subjects

Mathematics - Optimization and Control

Abstract

We present a framework for designing optimal optical pulses for the matter-wave splitting of a Bose-Einstein Condensate (BEC) under the influence of experimental inhomogeneities, so that the sample is transferred from an initial rest position into a singular higher diffraction order. To represent the evolution of the population of atoms, the Schroedinger's equation is reinterpreted as a parameterized ensemble of dynamical units that are disparately impacted by the beam light-shift potential in a continuous manner. The derived infinite-dimensional coupled Raman-Nath equations are truncated to a finite system of diffraction levels, and we suppose that the parameter that defines the inhomogeneity in the control applied to the ensemble system is restricted to a compact interval. We first design baseline square pulse sequences for the excitation of BEC beam-splitter states following a previous study, subject to dynamic constraints for either a nominal system assuming no inhomogeneity or for several samples of the uncertain parameter. We then approximate the continuum state-space of the ensemble of dynamics using a spectral approach based on Legendre moments, which is truncated at a finite order. Control functions that steer the BEC system from an equivalent rest position to a desired final excitation are designed using a constrained optimal control approach developed for handling nonlinear dynamics. This representation results in a minimal dimension of the computational problem and is shown to be highly robust to inhomogeneity in comparison to the baseline approach. Our method accomplishes the BEC-splitting state transfer for each subsystem in the ensemble, and is promising for precise excitation in experimental settings where robustness to environmental and intrinsic noise is paramount.

Published

2023

5. American Crossroads: London, McCarthy, and Apocalyptic Naturalism

Author

Martin, Michael J.

Published

2013

6. Experience and Expectations: The Dialogic Narrative of Adolescent Holocaust Literature

Author

Martin, Michael J.

Published

2009

7. The Ethics of After: Melvin Jules Bukiet, Holocaust Fiction, and the Reemergence of an Ethical Sense in the Post-Holocaust World

Author

Martin, Michael J. (Michael John)

Published

2004

8. My Mother's Voice: Children, Literature, and the Holocaust (review)

Author

Martin, Michael J.

Published

2009

9. Qudit entanglers using quantum optimal control

Author

Omanakuttan, Sivaprasad, Mitra, Anupam, Meier, Eric J., Martin, Michael J., and Deutsch, Ivan H

Subjects

Quantum Physics, Physics - Atomic Physics

Abstract

We study the generation of two-qudit entangling quantum logic gates using two techniques in quantum optimal control. We take advantage of both continuous, Lie-algebraic control and digital, Lie-group control. In both cases, the key is access to a time-dependent Hamiltonian which can generate an arbitrary unitary matrix in the group SU($d^2$). We find efficient protocols for creating high-fidelity entangling gates. As a test of our theory, we study the case of qudits robustly encoded in nuclear spins of alkaline earth atoms and manipulated with magnetic and optical fields, with entangling interactions arising from the well-known Rydberg blockade. We applied this in a case study based on a $d=10$ dimensional qudit encoded in the $I=9/2$ nuclear spin in $^{87}$Sr, controlled through a combination of nuclear spin-resonance, a tensor AC-Stark shift, and Rydberg dressing, which allows us to generate an arbitrary symmetric entangling two-qudit gate such as CPhase. Our techniques can be used to implement qudit entangling gates for any $2\le d \le10$ encoded in the nuclear spin. We also studied how decoherence due to the finite lifetime of the Rydberg states affects the creation of the CPhase gate and found, through numerical optimization, a fidelity of $0.9985$, $0.9980$, $0.9942$, and $0.9800$ for $d=2$, $d=3$, $d=5$, and $d=7$ respectively. This provides a powerful platform to explore the various applications of quantum information processing of qudits including metrological enhancement with qudits, quantum simulation, universal quantum computation, and quantum error correction., Comment: Included more details and figures

Published

2022

10. Crackpots on the Roof

Author

Martin, Michael J.

Published

2014

11. John Green's Peopled Places and Abandoned Spaces

Author

Martin, Michael J., primary

Published

2024

12. Saturating the one-axis twisting quantum Cram\'{e}r-Rao bound with a total spin readout

Author

Volkoff, T. J. and Martin, Michael J.

Subjects

Quantum Physics

Abstract

We show that the lowest quantum Cram\'{e}r-Rao bound achievable in interferometry with a one-axis twisted spin coherent state is saturated by the asymptotic method of moments error of a protocol that uses one call to the one-axis twisting, one call to time-reversed one-axis twisting, and a final total spin measurement (i.e., a twist-untwist protocol). The result is derived by first showing that the metrological phase diagram for one-axis twisting is asymptotically characterized by a single quantum Fisher information value $N(N+1)/2$ for all times, then constructing a twist-untwist protocol having a method of moments error that saturates this value. The case of finite-range one-axis twisting is similarly analyzed, and a simple functional form for the metrological phase diagram is found in both the short-range and long-range interaction regimes. Numerical evidence suggests that the finite-range analogues of twist-untwist protocols can exhibit a method of moments error that asymptotically saturates the lowest quantum Cram\'{e}r-Rao bound achievable in interferometry with finite-range one-axis twisted spin coherent states for all interaction times., Comment: 17 pages, 4 figures

Published

2022

13. Plagiarism deterrence for introductory programming

Author

Cohen, Simon J., Martin, Michael J., Shipley, Chance A., Kumar, Abhishek, and Cohen, Andrew R.

Subjects

Computer Science - Computers and Society

Abstract

Plagiarism in introductory programming courses is an enormous challenge for both students and institutions. For students, relying on the work of others too early in their academic development can make it impossible to acquire necessary skills for independent success in the future. For institutions, widespread student cheating can dilute the quality of the educational experience being offered. Currently available solutions consider only pairwise comparisons between student submissions and focus on punitive deterrence. Our approach instead relies on a class-wide statistical characterization that can be clearly and securely shared with students via an intuitive new p-value representing independence of student effort. A pairwise, compression-based similarity detection algorithm captures relationships between assignments more accurately. An automated deterrence system is used to warn students that their behavior is being closely monitored. High-confidence instances are made directly available for instructor review using our open-source toolkit. An unbiased scoring system aids students and the instructor in understanding true independence of effort. Preliminary results indicate that the system can provide meaningful measurements of independence from week one, improving the efficacy of technical education.

Published

2022

14. Neutral atom entanglement using adiabatic Rydberg dressing

Author

Mitra, Anupam, Omanakuttan, Sivaprasad, Martin, Michael J., Biedermann, Grant W., and Deutsch, Ivan H.

Subjects

Quantum Physics

Abstract

We revisit the implementation of a two-qubit entangling gate, the M{\o}lmer-S{\o}rensen gate, using the adiabatic Rydberg dressing paradigm for neutral atoms as studied in [Phys. Rev. A 101, 030301 (R) (2020)]. We study the implementation of rapid adiabatic passage using a two-photon transition, which does not require the use of an ultra-violet laser, and can be implemented using only amplitude modulation of one field with all laser frequencies fixed. We find that entangling gate fidelities, comparable to the one-photon excitation, are achievable with the two-photon excitation. Moreover, we address how the adiabatic dressing protocol can be used to implement entangling gates outside the regime of a perfect Rydberg blockade. We show that using adiabatic dressing we can achieve scaling of gate fidelity set by the fundamental limits to entanglement generated by the Rydberg interactions while simultaneously retaining a limited population in the doubly-excited Rydberg state. This allows for fast high fidelity gates for atoms separated beyond the blockade radius.

Published

2022

15. The Development of Vocational Agriculture before the Vocational Education Act 1963

Author

Martin, Michael J. and Kitchel, Tracy J.

Abstract

Agricultural education programs are experiencing pressure to change from a variety of educational and societal influences. This pressure is not new to agricultural education programs. The evolution of vocational agriculture from 1945 to 1963 provides a historical example of vocational education change as a result of social influences. Rural America experienced unprecedented emigration after World War II. The loss of students from farming families, the intended recipients of vocational agriculture, should have hampered local programs, but in fact the opposite occurred: enrollment in vocational agriculture continued to grow. We examine how vocational agriculture teachers transformed local programs to match their emerging clientele before the Vocational Education Act of 1963.

Published

2020

16. A M{\o}lmer-S{\o}rensen Gate with Rydberg-Dressed Atoms

Author

Martin, Michael J., Jau, Yuan-Yu, Lee, Jongmin, Mitra, Anupam, Deutsch, Ivan H., and Biedermann, Grant W.

Subjects

Quantum Physics, Physics - Atomic Physics

Abstract

Neutral atoms are building blocks of ground-up quantum many-body systems. Well-controlled and high-fidelity entangling gates are an essential component for realizing complex neutral atom architectures for quantum computing, quantum simulation, and measurement with precision better than the standard quantum limit. In this Letter we report the realization of a M{\o}lmer-S{\o}rensen unitary between two neutral atoms, based on adiabatic single-photon dressing to Rydberg levels. We show that this technique is highly robust to noise sources and experimental imperfections that have limited the fidelity of other approaches to neutral atom gates., Comment: 7 pages, 4 figures

Published

2021

17. Long-lived Bell states in an array of optical clock qubits

Author

Schine, Nathan, Young, Aaron W., Eckner, William J., Martin, Michael J., and Kaufman, Adam M.

Subjects

Physics - Atomic Physics, Condensed Matter - Quantum Gases, Quantum Physics

Abstract

The generation of long-lived entanglement on an optical clock transition is a key requirement to unlocking the promise of quantum metrology. Arrays of neutral atoms constitute a capable quantum platform for accessing such physics, where Rydberg-based interactions may generate entanglement between individually controlled and resolved atoms. To this end, we leverage the programmable state preparation afforded by optical tweezers along with the efficient strong confinement of a 3d optical lattice to prepare an ensemble of strontium atom pairs in their motional ground state. We engineer global single-qubit gates on the optical clock transition and two-qubit entangling gates via adiabatic Rydberg dressing, enabling the generation of Bell states, $|\psi\rangle = \frac{1}{\sqrt{2}}\left(|gg\rangle + i|ee\rangle \right)$, with a fidelity of $\mathcal{F}= 92.8(2.0)$%. For use in quantum metrology, it is furthermore critical that the resulting entanglement be long lived; we find that the coherence of the Bell state has a lifetime of $\tau_{bc} = 4.2(6)$ s via parity correlations and simultaneous comparisons between entangled and unentangled ensembles. Such Bell states can be useful for enhancing metrological stability and bandwidth. Further rearrangement of hundreds of atoms into arbitrary configurations using optical tweezers will enable implementation of many-qubit gates and cluster state generation, as well as explorations of the transverse field Ising model and Hubbard models with entangled or finite-range-interacting tunnellers.

Published

2021

18. Quantum Optimal Control of Nuclear Spin Qudecimals in $^{87}\text{Sr}$

Author

Omanakuttan, Sivaprasad, Mitra, Anupam, Martin, Michael J., and Deutsch, Ivan H

Subjects

Quantum Physics

Abstract

We study the ability to implement unitary maps on states of the $I=9/2$ nuclear spin in \textsuperscript{87}Sr, a $d=10$ dimensional (qudecimal) Hilbert space, using quantum optimal control. Through a combination of nuclear spin-resonance and a tensor AC-Stark shift, by solely modulating the phase of a radio-frequency magnetic field, the system is quantum controllable. Alkaline earth atoms, such as \textsuperscript{87}Sr, have a very favorable figure-of-merit for such control due to narrow intercombination lines and the large hyperfine splitting in the excited states. We numerically study the quantum speed-limit, optimal parameters, and the fidelity of arbitrary state preparation and full SU(10) maps, including the presence of decoherence due to optical pumping induced by the light-shifting laser. We also study the use of robust control to mitigate some dephasing due to inhomogeneities in the light shift. We find that with an rf-Rabi frequency of $\Omega_\text{rf}$ and 0.5\% inhomogeneity in the the light shift we can prepare an arbitrary Haar-random state in a time $T={4.5}\pi/\Omega_\text{rf}$ with average fidelity $\langle \mathcal{F}_\psi \rangle =0.9992$, and an arbitrary Haar-random SU(10) map in a time $T=24\pi/\Omega_\text{rf}$ with average fidelity $\langle \mathcal{F}_U \rangle = 0.9923$.

Published

2021

19. Asymptotic optimality of twist-untwist protocols for Heisenberg scaling in atomic interferometry

Author

Volkoff, T. J. and Martin, Michael J.

Subjects

Quantum Physics, Condensed Matter - Quantum Gases

Abstract

Twist-untwist protocols for quantum metrology consist of a serial application of: 1. unitary nonlinear dynamics (e.g., spin squeezing or Kerr nonlinearity), 2. parameterized dynamics $U(\phi)$ (e.g., a collective rotation or phase space displacement), 3. time reversed application of step 1. Such protocols are known to produce states that allow Heisenberg scaling for experimentally accessible estimators of $\phi$ even when the nonlinearities are applied for times much shorter than required to produce Schr\"{o}dinger cat states. In this work, we prove that twist-untwist protocols provide the lowest estimation error among quantum metrology protocols that utilize two calls to a weakly nonlinear evolution and a readout involving only measurement of a spin operator $\vec{n}\cdot \vec{J}$, asymptotically in the number of particles. We consider the following physical settings: all-to-all interactions generated by one-axis twisting $J_{z}^{2}$ (e.g., interacting Bose gases), constant finite range spin-spin interactions of distinguishable or bosonic atoms (e.g., trapped ions or Rydberg atoms, or lattice bosons). In these settings, we further show that the optimal twist-untwist protocols asymptotically achieve $85\%$ and $92\%$ of the respective quantum Cram\'{e}r-Rao bounds. We show that the error of a twist-untwist protocol can be decreased by a factor of $L$ without an increase in the noise of the spin measurement if the twist-untwist protocol can be noiselessly iterated as an $L$ layer quantum alternating operator ansatz., Comment: 8 pages, 2 figures

Published

2021

20. Robust M{\o}lmer-S{\o}rensen gate for neutral atoms using rapid adiabatic Rydberg dressing

Author

Mitra, Anupam, Martin, Michael J., Biedermann, Grant W., Marino, Alberto M., Poggi, Pablo M., and Deutsch, Ivan H.

Subjects

Quantum Physics, Physics - Atomic Physics

Abstract

The Rydberg blockade mechanism is now routinely considered for entangling qubits encoded in clock states of neutral atoms. Challenges towards implementing entangling gates with high fidelity include errors due to thermal motion of atoms, laser amplitude inhomogeneities, and imperfect Rydberg blockade. We show that adiabatic rapid passage by Rydberg dressing provides a mechanism for implementing two-qubit entangling gates by accumulating phases that are robust to these imperfections. We find that the typical error in implementing a two-qubit gate, such as the controlled phase gate, is dominated by errors in the single atom light shift, and that this can be easily corrected using adiabatic dressing interleaved with a simple spin echo sequence. This results in a two-qubit M{\o}lmer-S{\o}renson gate. A gate fidelity $\sim 0.995$ is achieveable with modest experimental parameters and a path to higher fidelities is possible for Rydberg states in atoms with a stronger blockade, longer lifetimes, and larger Rabi frequencies.

Published

2019

21. Intersectionality of Whiteness, Racism, and Homophobia among Agriculture Students

Author

Martin, Michael J. and Hartmann, Katherine

Abstract

This study looks to unearth bigoted ideas among White students in education classes at a large land-grant University. This research utilises Critical Whiteness in a narrative format to elicit 14 White education students' history of bigotry and its effect on their behaviour. Their stories highlight how White families and their friends talk about people of colour and members of the LGBTQ community in their White circles. While Whiteness studies traditionally focus on the discrimination against people of colour, this study found that many White students also talk about sexuality, class, and gender as necessary components to their White identity development. The strong bigoted views against members of the LGBTQ community by many of the students' families and even themselves warrant discussion of Whiteness as an intersection of multiple identities.

Published

2022

22. Agrarianism in Agricultural Education: A Narrative Study

Author

Martin, Michael J., Enns, Kellie, and Hartmann, Katherine

Abstract

Agriculturalists can be divided into broad ideological camps with differing value sets. While many different groups exist, there are two primary ideological groups: (1) conventional or agrarian populists and (2) nonconventional or neo-agrarians. Agricultural education students' values about agriculture shape how they will work in their future classrooms, schools, and communities, as well as how they will interact with students and community members. The purpose of this narrative study was to describe undergraduate agricultural education students' conceptualization of their values about agriculture. The findings from this study highlighted the polarization of ideologies in American agriculture. The agricultural education students' conceptualization of agricultural values was largely conventional. Some students formed conventional agriculture values as they grew up, while other students experienced a change of their values towards conventional attitudes while in college. Students' responses to others with differing values ranged from indifferent to negative. These differences indicate a real challenge for post-secondary agricultural educators. Students have the right to maintain their own values in agriculture, however they must be able to work with others who have differing values. Research is needed to evaluate effective ways to help students learn how to work with people who have differing agricultural values.

Published

2022

23. A newly synthesized 17-epi-NeuroProtectin D1/17-epi-Protectin D1: Authentication and functional regulation of Inflammation-Resolution

Author

Hamidzadeh, Kajal, Westcott, Jodi, Wourms, Nicholas, Shay, Ashley E., Panigrahy, Anand, Martin, Michael J., Nshimiyimana, Robert, and Serhan, Charles N.

Published

2022

24. The Conflicts of Agriculture: Exploring the Agricultural Ideologies of University Agricultural Education Students

Author

Martin, Michael J. and Enns, Kellie J.

Abstract

American agriculturalists are divided on a variety of issues related to production and consumption of food. Broadly speaking, two groups have emerged along two ideological lines: agrarian populism, which articulates conventional agricultural values, and neo-agrarianism, which shares some nonconventional agricultural values. Although both groups may find common ground, their ideological differences have led to conflict. Land-grant institutions are not immune to this type of conflict. This study examined how differing agricultural ideologies affected the experiences of agricultural education undergraduates at a land-grant institution. Two focus groups of agricultural education students at [University] were set apart to explore their agriculture values. Three themes emerged from this study: (a) acknowledgement of different agriculture values; (b) deeply rooted agriculture values; and (c) conflicts arising from differing agriculture values. Arguments from some students centered on agrarian populist ideological ideals, including traditional agriculture, farming, and rural lifestyle values and were often rooted in emotions. They were concerned about protecting a way of life, which they felt was being threatened by others. Some participants who had more neo-agrarian agriculture values did not freely present their arguments; but, seemed more comfortable promoting some of the more traditional agrarian populist ideals.

Published

2017

25. Role of the Agricultural Industry and Judging Events in Formation of the Future Farmers of America

Author

Tummons, John D., Simonsen, Jon C., and Martin, Michael J.

Abstract

Early agricultural education included youth judging activities, in which farm boys matched skills with students from neighboring schools. In 1925, students competed in a National Dairy Judging Contest in Indianapolis held specifically for vocational students. Based on the success of this contest, the Federal Board for Vocational Education requested the contest committee make arrangements for hosting a national livestock judging contest for vocational students the next year. Representatives from the American Royal Livestock Show agreed to provide a livestock judging contest and educational program specifically for vocational students. In 1926, students from 22 states converged in Kansas City, Missouri to compete in the first National Livestock Judging Contest. Cooperation between Kansas City agribusiness leaders, the Kansas City Star, and the U.S. Department of Education staff led to the development of a National Congress of Vocational Agriculture Students, consisting of agricultural youth showing and judging at the American Royal. The congress played a substantial role in the formation of the Future Farmers of America and shaped many traditions still practiced by the organization today. Authors explore the traditions of judging events and industry sponsorships in the context of today's National FFA Organization.

Published

2017

26. Cooperative Extension in Indigenous Communities: Characteristic of Successful Programs

Author

Hartmann, Katherine and Martin, Michael J.

Abstract

The mission of Land Grant Institutions (LGIs) and Cooperative Extension has always included the concepts of educational access and inclusion, but not all communities have equitable access to Extension programs. Specifically, Extension is currently only serving about 10% of Indigenous communities. Given the complicated history of Indigenous land dispossession that created LGIs, it is imperative that Indigenous communities have equitable access to the benefits of Extension's educational and agricultural programs. Despite these challenges, there are 1862 Extension educators that collaborate with Indigenous communities. Through a transformative convergent mixed methods study, I investigated the Western Region of Extension to learn about the characteristics that help to make Extension programs in Indigenous communities successful. The interviews and survey responses revealed these characteristics, including centering the community's goals, having an Insider Collaborator, and creating culturally relevant programming and pedagogy. From the findings of this study, my participants and I co-constructed implications and recommendations to help make these programs successful and provide equitable support to Indigenous communities.

Published

2021

27. Ghosting Susquehanna : From The Road to On the Road , Jack London’s “Haunting” of Jack Kerouac

Author

Martin, Michael J.

Published

2020

28. Demonstration of the Jaynes-Cummings ladder with Rydberg-dressed atoms

Author

Lee, Jongmin, Martin, Michael J., Jau, Yuan-Yu, Keating, Tyler, Deutsch, Ivan H., and Biedermann, Grant W.

Subjects

Quantum Physics

Abstract

We observe the nonlinearity of the Jaynes-Cummings (JC) ladder in the Autler-Townes spectroscopy of the hyperfine ground states for a Rydberg-dressed two-atom system. Here the role of the two-level system in the JC model is played by the presence or absence of a collective Rydberg excitation, and the bosonic mode manifests as the number $n$ of single atom spin flips, symmetrically distributed between the atoms. We measure the normal-mode splitting and $\sqrt{n}$ nonlinearity as a function of detuning and Rabi frequency, thereby experimentally establishing the isomorphism with the JC model., Comment: 5 pages, 4 figures

Published

2016

29. Advising an Urban FFA Chapter: A Narrative of Two Urban FFA Advisors

Author

Martin, Michael J. and Kitchel, Tracy

Abstract

Advising an urban FFA chapter can be a challenge for urban agriculture teachers. The contextual differences between the rural-oriented FFA and urban FFA members can make bridging the gap difficult. This narrative study sought to explore how the urban context shapes the work of an FFA chapter from the perspectives of two FFA advisors at the same school. Both advisors had the same viewpoint about what experiences their FFA members should have, which included competitions and events beyond the local chapter level. Yet, they struggled to meet this goal. Their FFA members who attended the National FFA Convention discussed the need to feed local, food insecure people as an opportunity for their FFA chapter. This revelation did not make the advisors feel more confident; rather, they were still frustrated that their members could not find success beyond the chapter level in FFA activities such as career development events (CDEs) and supervised agricultural experience programs (SAEs). This meant that the definition of success for the FFA Chapter fell to the FFA advisors and not their members. Implications from this research include the role of advisors' past experiences in shaping how they conceptualize their FFA chapter activities and success.

Published

2015

30. Critical Theory View of the National FFA Convention

Author

Martin, Michael J. and Kitchel, Tracy

Abstract

Urban FFA members face unique challenges if they want to become active members in the National FFA Organization. FFA leaders have realized that the FFA organization does not represent the evolving demographics of America and have made efforts to cater to urban and diverse high school audiences with some success. This study seeks to explore this phenomenon from the perspective of urban and diverse agriculture students through the use of a critical theory lens. This paper focuses on one group of urban FFA members and how they interpreted FFA culture while attending the National FFA Convention. The critical theory framework herein focuses on how these urban FFA members comprehended the FFA's rural and production-oriented agricultural themes. The Harris FFA members had the cultural resiliency to internalize the different cultural values they experienced and personally connect with some pieces of the culture presented. These members overlooked or adapted to the rural, White, and traditional agriculture values of FFA; but, more importantly, they focused on the leadership and community development values of FFA.

Published

2015

31. Gendering Agricultural Education: A Study of Historical Pictures of Women in the Agricultural Education Magazine

Author

Enns, Kellie J. and Martin, Michael J.

Abstract

The emergence of women agriculture teachers over the past 50 years has opened opportunities while revealing issues which females still face in agricultural education. Issues such as lack of female role models, gender stereotyping, and gender bias have been documented in agricultural education research. The purpose of this study was to explore the history of women's roles in vocational agriculture through the photographs of the Agricultural Education Magazine from 1929-1969. We utilized visual research methods to explore how women were represented in the photographs. We found 355 photographs with women in the pictures, 70 of those photographs met our criteria for visual analysis, and 17 photographs were included in the manuscript. The photographs showed women working in highly gendered roles as well as women breaking into typically male dominated roles. The photographs highlighted some of the first female vocational agriculture students and female student teachers. These women should be viewed as important pioneers in vocational agriculture. Nonetheless, the women in the photographs had various gendered roles which often conflicted with their acceptance in the profession.

Published

2015

32. New voices for a better society

Author

Diem, Stephanie J., primary, Bayon, Baindu L., additional, Mahmoud, Hussam, additional, Garcia-Cazarin, Mary L., additional, Martin, Michael J., additional, Rittschof, Clare C., additional, Silveyra, Patricia, additional, Boland-Reeves, Alison, additional, Najib, Dalal, additional, and Wasson, Flannery, additional

Published

2024

33. Realizing Exactly Solvable SU(N) Magnets with Thermal Atoms

Author

Beverland, Michael E., Alagic, Gorjan, Martin, Michael J., Koller, Andrew P., Rey, Ana M., and Gorshkov, Alexey V.

Subjects

Condensed Matter - Quantum Gases, Condensed Matter - Strongly Correlated Electrons, Physics - Atomic Physics, Quantum Physics

Abstract

We show that $n$ thermal fermionic alkaline-earth atoms in a flat-bottom trap allow one to robustly implement a spin model displaying two symmetries: the $S_n$ symmetry that permutes atoms occupying different vibrational levels of the trap and the SU($N$) symmetry associated with $N$ nuclear spin states. The high symmetry makes the model exactly solvable, which, in turn, enables the analytic study of dynamical processes such as spin diffusion in this SU($N$) system. We also show how to use this system to generate entangled states that allow for Heisenberg-limited metrology. This highly symmetric spin model should be experimentally realizable even when the vibrational levels are occupied according to a high-temperature thermal or an arbitrary non-thermal distribution., Comment: 12 pages, 5 figures (including supplemental materials)

Published

2014

34. Ultra-stable laser with average fractional frequency drift rate below $5\times10^{-19}/\mathrm{s}$

Author

Hagemann, Christian, Grebing, Christian, Lisdat, Christian, Falke, Stephan, Legero, Thomas, Sterr, Uwe, Riehle, Fritz, Martin, Michael J., and Ye, Jun

Subjects

Physics - Optics, Physics - Atomic Physics

Abstract

Cryogenic single-crystal optical cavities have the potential to provide highest dimensional stability. We have investigated the long-term performance of an ultra-stable laser system which is stabilized to a single-crystal silicon cavity operated at 124 K. Utilizing a frequency comb, the laser is compared to a hydrogen maser that is referenced to a primary caesium fountain standard and to the $^{87}\mathrm{Sr}$ optical lattice clock at PTB. With fractional frequency instabilities of $\sigma_y(\tau)\leq2\times10^{-16}$ for averaging times of $\tau=60\mathrm{~s}$ to $1000\mathrm{~s}$ and $\sigma_y(1 \mathrm{d})\leq 2\times10^{-15}$ the stability of this laser, without any aid from an atomic reference, surpasses the best microwave standards for short averaging times and is competitive with the best hydrogen masers for longer times of one day. The comparison of modeled thermal response of the cavity with measured data indicates a fractional frequency drift below $5\times 10^{-19}/\mathrm{s}$, which we do not expect to be a fundamental limit.

Published

2014

35. Barriers to Participation in the National FFA Organization According to Urban Agriculture Students

Author

Martin, Michael J. and Kitchel, Tracy

Abstract

Urban youth engaged in after-school organizations have more positive attributes compared to their unengaged contemporaries. The FFA is one particular intra-curricular organization with after-school components; yet, urban students do not participate in FFA at the same levels as rural students. The purpose of this descriptive study was to explore barriers to participation in FFA among urban high school agriculture students in an urban school district. We surveyed students' level of participation in FFA to determine their perceived barriers to FFA participation. Findings revealed students do not agree with any of the listed or expected barriers; however, significant differences surfaced between non-members and active members concerning barriers related to friends, family, school, and the community. The study exposed a need to address the perceptions of friends, family, and community when recruiting urban FFA members.

Published

2014

36. Urban FFA Members' Sense of the Organizational Culture of the FFA

Author

Martin, Michael J. and Kitchel, Tracy

Abstract

Organizational culture shapes how members of a group act. The culture has the power to exclude potential new members who do not fit into the culture of the organization. Research on urban school-based agriculture programs has indicated that urban agriculture students face barriers to their participation in the National FFA Organization (FFA). Experiences of urban FFA members at a National FFA Convention can provide researchers with an understanding of how urban agriculture students view the FFA organization. The purpose of the case study was to explore how urban FFA members experienced the FFA organizational culture while attending the 2012 National FFA Convention. We followed one urban FFA chapter during the 2012 National FFA Convention and conducted interviews before, during, and after the convention. We also conducted focus group interviews and made observations. Belmont FFA members did not generally perceive their experiences at the convention as a barrier to their involvement in FFA and were generally positive toward the FFA artifacts, beliefs, and values they identified at the convention. However, these findings need to be understood in the context of the members who attended the convention as their motivation to participate in FFA may have positively influenced their views.

Published

2014

37. Agrarianism: An Ideology of the National FFA Organization

Author

Martin, Michael J. and Kitchel, Tracy

Abstract

The traditions of the National FFA Organization (FFA) are grounded in agrarianism. This ideology focuses on the ability of farming and nature to develop citizens and integrity within people. Agrarianism has been an important thread of American rhetoric since the founding of country. The ideology has morphed over the last two centuries as the country developed from a nation of farmers to an industrial world power. The agrarian ideology that resonated in rural America during the formation of the FFA was southern agrarianism. Southern agrarian ideology argued for self-reliance and adherence to past traditions. These concepts appear in the FFA traditions of the creed, opening ceremony, motto, and awards. The historical growth and success of the FFA within rural communities demonstrates the ability of the southern agrarian ideology to connect with contemporary rural values. However, the southern agrarian ideology may not connect with the culture of diverse, urban, or suburban students. Advisers of diverse, urban, or suburban FFA chapters may need to reconceptualize the FFA traditions to accommodate their students.

Published

2013

38. Engaging Students in Constructive Youth-Adult Relationships: A Case Study of Urban School-Based Agriculture Students and Positive Adult Mentors

Author

Bird, William A., Martin, Michael J., Tummons, John D., and Ball, Anna L.

Abstract

The purpose of this bounded single case study was to explore the day-to-day functioning of a successful urban school-based agriculture veterinary program. Findings indicated student success was a product of multiple youth-adult relationships created through communal environments. Adults served as mentors with whom students felt constant, caring support. The bonds formed between students and adults were a result of the program and/or internship atmosphere. This case demonstrated how a school-based agricultural veterinary program can serve the educational needs of students in urban areas. The potential learning outcomes include developing students' understanding of agriculture content knowledge, professional skills attainment, and life skill development necessary for healthy, productive lives beyond formal schooling. The researchers recommend agriculture teachers develop opportunities for students to cultivate meaningful relationships with adult role models beyond the classroom. Agriculture teachers should adopt teaching and communication strategies to encourage open, trusting, and safe learning environments to enhance student engagement.

Published

2013

39. Student Motivation for Involvement in Supervised Agricultural Experiences: An Historical Perspective

Author

Bird, William A., Martin, Michael J., and Simonsen, Jon C.

Abstract

The purpose of this study was to examine student motivation for SAEs through the lens of the Self-Determination Theory. Self-Determination Theory proposed that human beings are more genuinely motivated when driven by internal factors as opposed to external factors. We used historical research and general qualitative interpretative methods to develop an explanation of student motivation for SAEs. We examined historical magazines, documents, and books for detailed cases of SAE participation. Three specific time periods were examined: 1928-1934, 1947-1953, and 1966-1973. We found that student motivation for SAEs has been a prevailing topic since the 1920s. SAEs have typically been initiated by utilizing extrinsic motivating forces through mandating, awards, class requirements, or collaborative school projects. Although extrinsic motivation was not ideal, half of the cases studied ended with a developed internal locus of causality. This demonstrated that student motivation to participate in SAEs could be established by external motivators and later sustained by internal stimulus. We recommend that agricultural education practitioners use caution when assigning external rewards. Overuse of external rewards such as money, trophies, or recognition could potentially distort a student's acquisition of the "true" SAE values of enhanced learning and career exploration.

Published

2013

40. Building Rural Communities through School-Based Agriculture Programs

Author

Martin, Michael J. and Henry, Anna

Abstract

The purpose of this study was to develop a substantive theory for community development by school-based agriculture programs through grounded theory methodology. Data for the study included in-depth interviews and field observations from three school-based agriculture programs in three non-metropolitan counties across a Midwestern state. The substantive theory that emerged was that school-based agriculture programs can have a positive impact on the social connections among a small group of community members and students. Social connections among community members and students were reinvested back into the program in the form of fundraising and student interaction. The reinvestment of resources helps individual students in the agriculture program, especially students who are destined to leave the community for higher education. (Contains 2 figures.)

Published

2012

41. Optical spectrum analyzer with quantum limited noise floor

Author

Bishof, Michael, Zhang, Xibo, Martin, Michael J., and Ye, Jun

Subjects

Physics - Atomic Physics, Physics - Optics

Abstract

Interactions between atoms and lasers provide the potential for unprecedented control of quantum states. Fulfilling this potential requires detailed knowledge of frequency noise in optical oscillators with state-of-the-art stability. We demonstrate a technique that precisely measures the noise spectrum of an ultrastable laser using optical lattice-trapped $^{87}$Sr atoms as a quantum projection noise-limited reference. We determine the laser noise spectrum from near DC to 100 Hz via the measured fluctuations in atomic excitation, guided by a simple and robust theory model. The noise spectrum yields a 26(4) mHz linewidth at a central frequency of 429 THz, corresponding to an optical quality factor of $1.6\times10^{16}$. This approach improves upon optical heterodyne beats between two similar laser systems by providing information unique to a single laser, and complements the traditionally used Allan deviation which evaluates laser performance at relatively long time scales. We use this technique to verify the reduction of resonant noise in our ultrastable laser via feedback from an optical heterodyne beat. Finally, we show that knowledge of our laser's spectrum allows us to accurately predict the laser-limited stability for optical atomic clocks.

Published

2013

42. Tenfold reduction of Brownian noise in optical interferometry

Author

Cole, Garrett D., Zhang, Wei, Martin, Michael J., Ye, Jun, and Aspelmeyer, Markus

Subjects

Physics - Optics, Condensed Matter - Mesoscale and Nanoscale Physics

Abstract

Thermally induced fluctuations impose a fundamental limit on precision measurement. In optical interferometry, the current bounds of stability and sensitivity are dictated by the excess mechanical damping of the high-reflectivity coatings that comprise the cavity end mirrors. Over the preceding decade, the mechanical loss of these amorphous multilayer reflectors has at best been reduced by a factor of two. Here we demonstrate a new paradigm in optical coating technology based on direct-bonded monocrystalline multilayers, which exhibit both intrinsically low mechanical loss and high optical quality. Employing these "crystalline coatings" as end mirrors in a Fabry-P\'erot cavity, we obtain a finesse of 150,000. More importantly, at room temperature, we observe a thermally-limited noise floor consistent with a tenfold reduction in mechanical damping when compared with the best dielectric multilayers. These results pave the way for the next generation of ultra-sensitive interferometers, as well as for new levels of laser stability.

Published

2013

43. A cold call on work-based learning: a “live” group project for the strategic selling classroom

Author

Lloyd, Robert, Martin, Michael J., Hyatt, James, and Tritt, Addison

Published

2019

44. Inelastic collisions and density-dependent excitation suppression in a ${}^{87}$Sr optical lattice clock

Author

Bishof, Michael, Martin, Michael J, Swallows, Matthew D., Benko, Craig, Lin, Yige, Quéméner, Goulven, Rey, Ana Maria, and Ye, Jun

Subjects

Physics - Atomic Physics, Condensed Matter - Quantum Gases, Quantum Physics

Abstract

We observe two-body loss of ${}^3P_0$ ${}^{87}$Sr atoms trapped in a one-dimensional optical lattice. We measure loss rate coefficients for atomic samples between 1 and 6 $\mu$K that are prepared either in a single nuclear-spin-sublevel or with equal populations in two sublevels. The measured temperature and nuclear spin preparation dependence of rate coefficients agree well with calculations and reveal that rate coefficients for distinguishable atoms are only slightly enhanced over those of indistinguishable atoms. We further observe a suppression of excitation and losses during interrogation of the ${}^1S_0$-${}^3P_0$ transition as density increases and Rabi frequency decreases, which suggests the presence of strong interactions in our dynamically driven many-body system.

Published

2011

45. Ultra-Broadband Coherent Supercontinuum Frequency Comb

Author

Ruehl, Axel, Martin, Michael. J., Cossel, Kevin C., Chen, Lisheng, McKay, Hugh, Thomas, Brian, Benko, Craig, Dong, Liang, Dudley, John M., Fermann, Martin E., Hartl, Ingmar, and Ye, Jun

Subjects

Physics - Optics

Abstract

We present detailed studies of the coherence properties of an ultra-broadband super-continuum, enabled by a new approach involving continuous wave laser sources to independently probe both the amplitude and phase noise quadratures across the entire spectrum. The continuum coherently spans more than 1.5 octaves, supporting Hz-level comparison of ultrastable lasers at 698 nm and 1.54 {\mu}m. We present the first numerical simulation of the accumulated comb coherence in the limit of many pulses, in contrast to the single-pulse level, with systematic experimental verification. The experiment and numerical simulations reveal the presence of quantum-seeded broadband amplitude noise without phase coherence degradation, including the discovery of a dependence of the super-continuum coherence on the fiber fractional Raman gain., Comment: 5 pages, 3 figures

Published

2011

46. Suppression of collisional shifts in a strongly interacting lattice clock

Author

Swallows, Matthew D., Bishof, Michael, Lin, Yige, Blatt, Sebastian, Martin, Michael J., Rey, Ana Maria, and Ye, Jun

Subjects

Quantum Physics, Condensed Matter - Quantum Gases, Physics - Atomic Physics

Abstract

Optical lattice clocks have the potential for extremely high frequency stability owing to the simultaneous interrogation of many atoms, but this precision may come at the cost of systematic inaccuracy due to atomic interactions. Density-dependent frequency shifts can occur even in a clock that uses fermionic atoms if they are subject to inhomogeneous optical excitation [1, 2]. Here we present a seemingly paradoxical solution to this problem. By dramatically increasing the strength of atomic interactions, we suppress collisional shifts in lattice sites containing $N$ > 1 atoms; strong interactions introduce an energy splitting into the system, and evolution into a many-particle state in which collisions occur is inhibited. We demonstrate the effectiveness of this approach with the JILA Sr lattice clock by reducing both the collisional frequency shift and its uncertainty by more than a factor of ten [3], to the level of $10^{-17}$. This result eliminates the compromise between precision and accuracy in a many-particle system, since both will continue to improve as the particle number increases., Comment: 13 pages, 6 figures

Published

2010

47. Implementing School-Based Agricultural Education in an Urban Context.

Author

Martin, Michael J., Mumma, Kaley, and Van Der Kamp, Blake

Subjects

URBAN community development, AGRICULTURAL education, URBAN planning, URBAN education, AGRICULTURE

Abstract

The implementation of urban school-based agricultural education programs has been a topic of growing interest. The literature indicates that urban programs are increasing in number, presenting unique challenges in implementation and programming. This case study examined a program in an urban community which blended traditional and nontraditional SBAE programmatic elements. The program elements traditional to agricultural education included a barn with livestock and greenhouse focused on floral production. The more unique programmatic elements included the contextualization of agriculture over agricultural content, an emphasis on DEI work, deemphasizing the FFA, inclusion of a Junior MANNRS Chapter, and curriculum focused on food production in the greenhouse. The implications of this case study for urban program design are important in that there is no one size fits all in programming for urban programs. [ABSTRACT FROM AUTHOR]

Published

2024

48. Qudit Entanglers Using Quantum Optimal Control

Author

Omanakuttan, Sivaprasad, primary, Mitra, Anupam, additional, Meier, Eric J., additional, Martin, Michael J., additional, and Deutsch, Ivan H., additional

Published

2023

49. Testing ultrafast mode-locking at microhertz relative optical linewidth

Author

Martin, Michael J., Foreman, Seth M., Schibli, T. R., and Ye, Jun

Subjects

Physics - Optics

Abstract

We report new limits on the phase coherence of the ultrafast mode-locking process in an octave-spanning Ti:sapphire comb. We find that the mode-locking mechanism correlates optical phase across a full optical octave with less than 2.5 micro Hz relative linewidth. This result is at least two orders of magnitude below recent predictions for quantum-limited individual comb-mode linewidths, verifying that the mode-locking mechanism strongly correlates quantum noise across the comb spectrum., Comment: Expanded discussion to include correlated noise terms, made minor formatting changes, added a reference, and fixed typographical errors. 10 pages, 5 figures

Published

2008

50. The absolute frequency of the 87Sr optical clock transition

Author

Campbell, Gretchen K., Ludlow, Andrew D., Blatt, Sebastian, Thomsen, Jan W., Martin, Michael J., de Miranda, Marcio H. G., Zelevinsky, Tanya, Boyd, Martin M., Ye, Jun, Diddams, Scott A., Heavner, Thomas P., Parker, Thomas E., and Jefferts, Steven R.

Subjects

Physics - Atomic Physics

Abstract

The absolute frequency of the 1S0-3P0 clock transition of 87Sr has been measured to be 429 228 004 229 873.65 (37) Hz using lattice-confined atoms, where the fractional uncertainty of 8.6x10-16 represents one of the most accurate measurements of an atomic transition frequency to date. After a detailed study of systematic effects, which reduced the total systematic uncertainty of the Sr lattice clock to 1.5x10-16, the clock frequency is measured against a hydrogen maser which is simultaneously calibrated to the US primary frequency standard, the NIST Cs fountain clock, NIST-F1. The comparison is made possible using a femtosecond laser based optical frequency comb to phase coherently connect the optical and microwave spectral regions and by a 3.5 km fiber transfer scheme to compare the remotely located clock signals.

Published

2008