Montana超精细无液氦低温光学恒温器从“中场核心”到“球队领袖”
世界杯已经进行到了如火如荼的阶段,无论是集体颜值最高的德国还是有着神级射手的阿根廷,本届世界杯的表现都让我们的心情跌宕起伏。我们不难发现阿根廷纵然拥有梅西这样的顶级射手,一旦失去中场的强力支持,进攻就会显得很不连贯,以至于出线历程险象环生。而德国队的表现更是让球迷哭泣,感觉他们缺少一些中场的核心凝聚力和真正的领袖人物,以至于关键时刻不能完成致命一击。“Teamwork”这个词真是对足球最好的诠释了。
我们的科学研究情况也是这样,一个前沿的研究课题要想取得突破离不开卓越的科研人员,同样也离不开多种先进设备的协同工作。目前量子材料、量子信息和低温光学是最为活跃的研究方向。这些领域都有着自己的特色尖端仪器,好像仪器中的“前锋”;另外还有为这些顶级设备提供研究环境和平台使得它们能够协同工作的低温光学恒温器,这就好像仪器中的“中场核心”。前锋固不可少,而中场核心更是决定比赛走势的中流砥柱。今天我们就为大家来介绍中场队员中的佼佼者——Montana超精细无液氦低温光学恒温器。
图1Montana超精细无液氦低温光学恒温器
日前亚洲首套Montana超精细无液氦低温光学恒温器超稳定高阻尼系统HILA落户中国香港。在过去短短两个月中,Montana超精细无液氦低温光学恒温器在微系统所、复旦大学以及中国科学技术大学陆朝阳研究组顺利完成了安装。Montana超精细无液氦低温光学恒温器作为低温光学和量子信息领域重要的设备之一,为各种测量仪器提供低温光学研究环境。目前Montana超精细无液氦低温光学恒温器已经发展成为型号齐全,功能全面,应用领域最为广泛的低温光学恒温器。如果将科研看成一场比赛的话,那么Montana超精细无液氦低温光学恒温器长期以来扮演着低温光学与量子信息科研比赛的“中场核心”,在科研道路上披荆斩棘帮助用户“攻城略地”。
图2 Quantum Design工程师(右一)与微系统所用户
Montana Instruments始终不满足于眼前的成绩,在不断探索继续前进,在与多种第三方测量设备的兼容上都取得了突破,甚至已经成为NanoMOKE和FMR设备进行低温测量的官方推荐方案。目前Montana超精细无液氦低温光学恒温器提供的第三方设备集成方案包含各种磁体、各种显微镜、多种拉曼光谱仪、MOKE、铁磁共振、多种波段光谱仪、各种电学测量设备、微区扫描SQUID、STM等几十种设备。MI工程师专业的技术支持使客户省去了繁琐的实验搭建环节,大大提高科研效率。更为可喜的是,2017年Cryostation一词已经正式获批注册商标,象征着MI在全球低温光学领域的绝对影响力和统治地位。
如果说Montana超精细无液氦低温光学恒温器以前是一名优秀的中场核心,现在已经成长为球队的领袖。这样的成绩源于科学家对MontanaInstruments的肯定激励我们朝着更广的应用领域,更深的研究细节奋勇前进!
附:Montana超精细无液氦低温光学恒温器光谱学领域文章举例
RamanSpectroscopy
2017 - David D. Awschalom (University ofChicago) - Nature Physics - Accelerated quantum controlusing superadiabatic dynamics in a solid-state lambda system
2017 - Amir Safavi-Naeini (StanfordUniversity) - Phys. Rev. Applied - EngineeringPhonon Leakage in Nanomechanical Resonators
2016 - Douglas Natelson (Rice University) -ACS Nano - Plasmonicheating in Au nanowires at low temperatures: The role of thermal boundaryresistance
2016 - Kenneth S. Burch (Boston College) -Review of Scientific Instruments - Lowvibration high numerical aperture automated variable temperature Ramanmicroscope
Photoluminescence,Fluorescence, Single Molecule Spectroscopy, Super Resolution Microscopy
2018 - Hui Deng (University of Michigan) -Nature Comms - Photonic-crystalexciton-polaritons in monolayer semiconductors
2017 - Hongkun Park (Harvard University) -Nature Nanotechnology - Probing dark excitons inatomically thin semiconductors via near-field coupling to surface plasmonpolaritons
2017 - Kartik Srinivasan (NIST) - Review ofScientific Instruments - Cryogenicphotoluminescence imaging system for nanoscale positioning of single quantumemitters
2016 - Xiaodong Xu (University ofWashington) - Science - Valley-PolarizedExciton Dynamics in a 2D Semiconductor Heterostructure
2014 - Edo Waks (University of Maryland) -Nature Photonics - All-optical coherentcontrol of vacuum Rabi oscillations
OpticalTransmission, Optical Absorption Spectroscopy, Pump-Probe Techniques
2018 - Carlos Silva (Georgia Tech) - Phys.Rev. Materials - Stablebiexcitons in two-dimensional metal-halide perovskites with strong dynamiclattice disorder
2016 - Alan Bristow (West VirginiaUniversity) - SPIE - Two-dimensionalcoherent spectroscopy of excitons, biexcitons and exciton-polaritons
2015 - Mikael Afzelius (University ofGeneva, Switzerland) - Phys. Rev. Lett - Coherentspin control at the quantum level in an ensemble-based optical memory
OpticalReflection, Pump-Probe Techniques
2018 - Hongkun Park (Harvard University) -Phys. Rev. Lett - LargeExcitonic Reflectivity of Monolayer MoSe2 Encapsulated in Hexagonal BoronNitride
2017 - Lilian Childress (McGill University)- Optics Express - AHigh-Mechanical Bandwidth Fabry-Perot Fiber Cavity
2017 - Jun Ye (JILA, NIST) - Phys. Rev.Lett - UltrastableSilicon Cavity in a Continuously Operating Closed-Cycle Cryostat at 4 K
OpticalCavities
2018 - Jelena Vuckovic (StanfordUniversity) - Nano Lett - StronglyCavity-Enhanced Spontaneous Emission from Silicon-Vacancy Centers in Diamond
2017 - Jun Ye (JILA, NIST) - Phys. Rev.Lett - UltrastableSilicon Cavity in a Continuously Operating Closed-Cycle Cryostat at 4 K
2017 - Kartik Srinivasan (NIST) - Science- Quantumcorrelations from a room-temperature optomechanical cavity
2016 - Alberto Amo (CNRS, UniversitéParis-Saclay) - Nature Comms - Interaction-induced hoppingphase in driven-dissipative coupled photonic microcavities
2015 - Paul Barclay (University of Calgary,Canada) - Phys. Rev. X - Single-CrystalDiamond Nanobeam Waveguide Optomechanics
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拓展阅读:
1、Montana光学恒温器实力解决低温MOKE测量难题,持续提供低温磁学测量新思路
2、Montana助力无漏洞贝尔实验,宣告爱因斯坦隐变量理论出局超精细多功能无液氦
3、低温光学恒温器
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