Published August 1, 2018 | Version v1
Publication Open

Simulating para-Fermi oscillators

Creators

  • 1. National Institute of Astrophysics, Optics and Electronics
  • 2. Tecnológico de Monterrey

Description

Quantum mechanics allows for a consistent formulation of particles that are neither bosons nor fermions. These para-particles are rather indiscernible in nature. Recently, we showed that strong coupling between a qubit and two field modes is required to simulate even order para-Bose oscillators. Here, we show that finite-dimensional representations of even order para-Fermi oscillators are feasible of quantum simulation under weak coupling. This opens the door to their potential implementation in different contemporaneous quantum electrodynamics platforms. We emphasize the intrinsic value of para-particles for the quantum state engineering of bichromatic field modes. In particular, we demonstrate that binomial two field mode states result from the evolution of para-Fermi vacuum states in the quantum simulation of these oscillators.

⚠️ This is an automatic machine translation with an accuracy of 90-95%

Translated Description (Arabic)

تسمح ميكانيكا الكم بتكوين متسق للجسيمات التي ليست بوزونات ولا فرميونات. هذه الجسيمات شبه غير واضحة إلى حد ما في الطبيعة. في الآونة الأخيرة، أظهرنا أن الاقتران القوي بين الكيوبت واثنين من أوضاع المجال مطلوب لمحاكاة مذبذبات شبه بوز ذات الترتيب المتساوي. هنا، نوضح أن التمثيلات ذات الأبعاد المحدودة لمذبذبات شبه فيرمي ذات الترتيب المتساوي ممكنة للمحاكاة الكمية في ظل اقتران ضعيف. وهذا يفتح الباب أمام تنفيذها المحتمل في منصات الديناميكا الكهربائية الكمومية المعاصرة المختلفة. نؤكد على القيمة الجوهرية للجسيمات المساعدة لهندسة الحالة الكمومية لأنماط المجال ثنائية اللون. على وجه الخصوص، نوضح أن حالات وضع المجال ذات الحدين تنتج عن تطور حالات الفراغ شبه فيرمي في المحاكاة الكمية لهذه المذبذبات.

Translated Description (English)

Quantum mechanics allows for a consistent formulation of particles that are neither bosons nor fermions. These para-particles are rather indiscernible in nature. Recently, we showed that strong coupling between a qubit and two field modes is required to simulate even order para-Bose oscillators. Here, we show that finite-dimensional representations of even order para-Fermi oscillators are feasible of quantum simulation under weak coupling. This opens the door to their potential implementation in different contemporary quantum electrodynamics platforms. We emphasize the intrinsic value of para-particles for the quantum state engineering of bichromatic field modes. In particular, we demonstrate that binomial two field mode states result from the evolution of para-Fermi vacuum states in the quantum simulation of these oscillators.

Translated Description (French)

Quantum mechanics allows for a consistent formulation of particles that are neither bosons nor fermions. These para-particles are rather indiscernable in nature. Recently, we showed that strong coupling between a qubit and two field modes is required to simulate even order para-Bose oscillators. Here, we show that finite-dimensional representations of even order para-Fermi oscillators are feasible of quantum simulation under weak coupling. This opens the door to their potential implementation in different contemporaneous quantum electrodynamics platforms. We emphasize the intrinsic value of para-particles for the quantum state engineering of bichromatic field modes. En particulier, we demonstrate that binomial two field mode states result from the evolution of para-Fermi vacuum states in the quantum simulation of these oscillators.

Translated Description (Spanish)

Quantum mechanics allows for a consistent formulation of particles that are neither bosons nor fermions. These para-particles are rather indiscernible in nature. Recently, we showed that strong coupling between a qubit and two field modes is required to simulate even order para-Bose oscillators. Here, we show that finite-dimensional representations of even order para-Fermi oscillators are feasible of quantum simulation under weak coupling. This opens the door to their potential implementation in different contemporaneous quantum electrodynamics platforms. We emphasize the intrinsic value of para-particles for the quantum state engineering of bichromatic field modes. En particular, we demonstrate that binomial two field mode states result from the evolution of para-Fermi vacuum states in the quantum simulation of these oscillators.

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Additional details

Additional titles

Translated title (Arabic)
محاكاة مؤشرات التذبذب شبه فيرمي
Translated title (English)
Simulating para-Fermi oscillators
Translated title (French)
Simulating para-Fermi oscillators
Translated title (Spanish)
Simulating para-Fermi oscillators

Identifiers

Other
https://openalex.org/W3102238860
DOI
10.1038/s41598-018-29771-2

Is supplement to
https://openalex.org/W4302355766 (Other)
https://openalex.org/W4298308748 (Other)
https://openalex.org/W2981164779 (Other)
https://openalex.org/W2963738464 (Other)
https://openalex.org/W2210161263 (Other)
https://openalex.org/W2123962311 (Other)
https://openalex.org/W2089507606 (Other)
https://openalex.org/W2074958934 (Other)
https://openalex.org/W1971027414 (Other)
https://openalex.org/W1674424879 (Other)

GreSIS Basics Section

Is Global South Knowledge
Yes
Country
Mexico

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