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DTSTART;TZID=America/New_York:20221006T134500
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DESCRIPTION:Research into Quantum Computers is moving at a frantic pace and
  has caught the attention of many national government and military agencie
 s who are eager to fund further research. A quantum computer differs from 
 computers we use today as it is a device for computation that makes direct
  use of quantum mechanical phenomena\, referred to as superposition and en
 tanglement. A Qubit or Quantum Bit is the fundamental unit of operation an
 d the manipulation of a single Qubit or groups of Qubits can be used to fo
 rm gates the building blocks of quantum algorithms.\nIn this lecture\, we 
 will examine quantum computing in terms of understanding what a Qubit is\,
  how to make a Qubit\, characterize\, control\, and analyze the Qubit - an
 d perform some basic data manipulation. Understanding and Characterizing t
 he Qubits operational parameters allows you to establish how you would dev
 elop quantum gates. This presentation first gives an introduction to Quant
 um Computing\, covers the RF/Microwave measurement techniques used to char
 acterize the Qubit\, and highlights the results obtained in a case study a
 longside Bleximo Corp (a quantum startup in Berkeley\, CA)\, with measurem
 ent performed at Lawrence Berkeley National Laboratory. The presentation t
 hen goes on to show how you would implement a basic quantum gate. The resu
 lts are based on a novel measurement approach to solving the problem - usi
 ng direct-to-RF DAC/ADC technology\, that takes advantage of RF/Microwave 
 Synthesis and Digitizing techniques\, utilizing concepts such as multiple 
 Nyquist Zones operation\, Digital Frequency Conversion\, and Real-Time Har
 dware Averaging - to create and analyze the appropriate resonant frequenci
 es required to perform Spectroscopy\, Rabi Oscillation\, and T1 and T2 Mea
 surements.\n\nSpeaker(s): Mr. Mark Elo\, \n\nBldg: Hanover Manor\, 16 Eagl
 e Rock Avenue \,  East Hanover\, New Jersey\, United States\, 07936
LOCATION:Bldg: Hanover Manor\, 16 Eagle Rock Avenue \,  East Hanover\, New 
 Jersey\, United States\, 07936
ORGANIZER:akpoddar@ieee.org
SEQUENCE:2
SUMMARY:Quantum Computing: Characterizing & Programming Quantum Bits – an
  RF Engineer's Perspective
URL;VALUE=URI:https://events.vtools.ieee.org/m/331229
X-ALT-DESC:Description: <br /><p>Research into Quantum Computers is moving 
 at a frantic pace and has caught the attention of many national government
  and military agencies who are eager to fund further research. A quantum c
 omputer differs from computers we use today as it is a device for computat
 ion that makes direct use of quantum mechanical phenomena\, referred to as
  superposition and entanglement. A Qubit or Quantum Bit is the fundamental
  unit of operation and the manipulation of a single Qubit or groups of Qub
 its can be used to form gates the building blocks of quantum algorithms.&n
 bsp\;<br />In this lecture\, we will examine quantum computing in terms of
  understanding what a Qubit is\, how to make a Qubit\, characterize\, cont
 rol\, and analyze the Qubit - and perform some basic data manipulation. Un
 derstanding and Characterizing the Qubits operational parameters allows yo
 u to establish how you would develop quantum gates. This presentation firs
 t gives an introduction to Quantum Computing\, covers the RF/Microwave mea
 surement techniques used to characterize the Qubit\, and highlights the re
 sults obtained in a case study alongside Bleximo Corp (a quantum startup i
 n Berkeley\, CA)\, with measurement performed at Lawrence Berkeley Nationa
 l Laboratory. The presentation then goes on to show how you would implemen
 t a basic quantum gate. The results are based on a novel measurement appro
 ach to solving the problem - using direct-to-RF DAC/ADC technology\, that 
 takes advantage of RF/Microwave Synthesis and Digitizing techniques\, util
 izing concepts such as multiple Nyquist Zones operation\, Digital Frequenc
 y Conversion\, and Real-Time Hardware Averaging - to create and analyze th
 e appropriate resonant frequencies required to perform Spectroscopy\, Rabi
  Oscillation\, and T1 and T2 Measurements.&nbsp\;</p>
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