Differences between revisions 1 and 59 (spanning 58 versions)
Revision 1 as of 2018-12-05 20:55:40
Size: 1011
Comment:
Revision 59 as of 2019-01-08 18:14:05
Size: 7213
Comment:
Deletions are marked like this. Additions are marked like this.
Line 2: Line 2:

=== Overview ===
 * FPC is approved under [[KAGRA/KSC|KSC]] in Dec/2018 with the following initial members:
  * Sadakazu Haino(Chair), Chunglee Kim, Kentaro Komori, Yuta Michimura, Matteo Leonardi, Atsushi Nishizawa, Kentaro Somiya(PRDC chair)
 * Any comments/questions/requests from anyone are much appreciated and can be sent to the dedicated Mailing List
  * ksc-fpc _at_ icrr.u-tokyo.ac.jp
Line 6: Line 13:
 * [[https://gwdoc.icrr.u-tokyo.ac.jp/cgi-bin/private/DocDB/ShowDocument?docid=8427|Observation scenario including LIGO/Virgo O5 upgrades]]
Line 7: Line 15:
=== White paper ===
  * Scientific motivation
  * Survey of the current technologies (price and readiness)
  * Limits of the current facility
  * Trade-off studies
  * Time scale of plans: near-term(more realistic) and longer-term(some dreams)
  * Back up plans
  * R&Ds to be done : input to the PRDC
  * Budget estimate
  * Project execution plan
=== LIGO-Virgo white papers ===
 * LIGO Instrument science white paper (2017): [[https://dcc.ligo.org/public/0142/T1700231/003/T1700231-v3.pdf|LIGO-T1700231–v2]]
 * LIGO Instrument science white paper (2018): [[https://dcc.ligo.org/public/0151/T1800133/004/T1800133-instrument-science-white-v4.pdf|LIGO-T1800133–v3]]

 * The LSC-Virgo White Paper on Gravitational Wave Data Analysis and Astrophysics (July 2017 edition): [[https://dcc.ligo.org/public/0142/T1700214/004/WP17.pdf|LIGO–T1700214-v4]] VIR-0435D-17
 * The LSC-Virgo White Paper on Gravitational Wave Data Analysis and Astrophysics (Summer 2018 edition): [[https://dcc.ligo.org/public/0150/T1800058/002/WP18.pdf|LIGO–T1800058-v2]] VIR-0119B-18


=== Draft of white paper ===
 * Link to Overleaf: https://www.overleaf.com/project/5c091fbd8795b4614778100c
 * Link to Dropbox (backup): https://www.dropbox.com/sh/ry8x2x5wco4xbxx/AAAy782OD9Mhbca7Cov0Ws5Oa?dl=0

=== Meetings ===
 * [[KAGRA/FPC/meetings/190108|2019/01/08]]

=== White paper plan ===
 * Scientific motivation
   * Stellar-mass BBH
     * formation scenarios [Kohei Inayoshi]
     * population (parameter estimation) [Chunglee Kim]
     * host galaxy identification (sky localization) [Chunglee Kim]
   * Intermediate-mass BBH
     * formation scenarios [Kohei Inayoshi]
     * polulation (parameter estimation) [Chunglee Kim]
     * intermediate mass-ratio binaries [Norichika Sago]
   * BNS and BHNS
     * binary evolution [Chunglee Kim]
     * population (parameter estimation) [Chunglee Kim]
     * NS EOS and tidal deformation [Masaru Shibata]
     * NS remnant [Masaru Shibata]
     * kilonova [Masaru Shibata]
     * short gamma-ray burst [Kunihito Ioka]
   * Accereting binaries
     * low-mass x-ray binaries [Albert Kong]
   * Isolated NS
     * pulsar ellipticity (continuous) [Yousuke Itoh]
     * pulsar glitches and magnetar flare [Yasufumi Kojima]
     * stellar oscillation [Hajime Sotani]
   * Supernova
     * explosion models [Kei Kotake]
     * distinguishing explosion models (parameter estimation) [Kazuhiro Hayama]
     * polarization [Kazuhiro Hayama]
   * Cosmic string
     * burst signal [Kipp Cannon]
     * stochastic background [Kipp Cannon]
     * parameter estimation [Kipp Cannon]
   * Stochastic background
     * inflation models [Sachiko Kuroyanagi]
     * phase transition [Mitsuru Kakizaki?]
     * astrophysical background [??]
     * spectral shape (parameter estimation) [Sachiko Kuroyanagi]
   * Test of gravity
     * test of consistency with GR [Tjonnie G. F. Li]
     * generation mechanism [Takahiro Tanaka]
     * propagation effect [Atsushi Nishizawa]
     * polarization [Hiroki Takeda]
     * BH no-hair theorem [Hiroyuki Nakano]
   * Cosmology
     * Hubble constant measurement [Atsushi Nishizawa]
   * Multimessenger
     * fast radio burst [Kazumi Kashiyama]
     * long gamma-ray burst [Ryo Yamazaki]
   * Others
     * BH echo [Takahiro Tanaka]
 * Survey of the current technologies (price and readiness)
  * High power laser (how much power? stability?) [Haino?]
  * Parametric instabilty vs power, mitigation schemes [Michimura? KYamamoto?]
  * Squeezing (squeezing level, losses) [Matteo, Eleonora]
  * Filter cavity (losses) [Matteo, Eleonora]
  * Mirror (mass, coating, absorption) [Hirose?]
  * Suspending larger mirror [Okutomi?]
  * Suspension design for suspension thermal noise reduction (upper stage masses, sapphire blades, ribbon design) [Tomaru?]
  * Improving heat conductivity of sapphire fibers [Tomaru?]
  * Extreme RSE (high SRM reflectivity possible?) [Michimura?]
  * Technological noises at low frequencies [Michimura?]
  * Newtonian noise cancellation [Nishizawa?]
  * QND, quantum locking [KNagano]
  * Silicon mass
  * 1550nm/2000nm laser
  * Suspension point interferometer
  * Vertical suspension point interferometer
  * Thermal compensation system (BS/PRMs)
  * Balanced homodyne detector
  * Low-loss output faraday isolator
  * Suspension thermal noise cancellation using single loop wires
  * Khalili cavity
  * EPR entanglement
  * Phase camera
  * Double optical spring
  * Multi-carrier interferometer
  * Delay line
  * Local readout scheme
  * Intracavity squeezing
  * Intracavity signal amplifier
  * White light cavity
  * Speedmeter
  * Long SRC
  * Xylophone
  * Technologies to accerelate commissioning work (e.g. machine learning for auto alignment)
  * Technologies to improve stability
  * Technologies to improve duty cycle
  * Technologies to reduce calibration error
 * Study of new noise sources
  * Schumann resonance
  * Water gravity gradient noise
  * Acoustic gravity gradient noise
  * Thermal noise in non-equilibrium steady state
  * Gravity decoherence noise
 * Status of the current facility
  * TUN
  * FCL
  * VAC
  * CRY [Tomaru]
  * VIS [Takahashi, Aso]
  * MIR [Hirose]
  * LAS [Mio]
  * IOO [Kokeyama, Somiya]
  * AOS [Akutsu]
  * ...
 * Limits of the current facility
  * Mirror size in cryostat [KYamamoto?]
  * Filter cavity length [Matteo, Eleonora]
  * Computing resources [Chunglee?]
 * Trade-off studies
 * Time scale of plans: near-term(more realistic) and longer-term(some dreams)
 * Back up plans
 * R&Ds to be done : input to the PRDC
 * Budget estimate
 * Project execution plan
Line 19: Line 146:
    * Work in progress draft to be presented @ KIW in Feb 2019 : Feedbacks from Virgo
    * First draft to be circulated @ April 2019 F2F
    * Final version to be put for approval @ Aug 2019 F2F
 * Work in progress draft to be presented @ KIW in Feb 2019 : Feedbacks from Virgo
 * First draft to be circulated @ April 2019 F2F
 * Final version to be put for approval @ Aug 2019 F2F

==== References ====
 * [[LCGT/subgroup/ifo/BW|LCGT Observation Band study]]
 * [[https://gwdoc.icrr.u-tokyo.ac.jp/cgi-bin/private/DocDB/ShowDocument?docid=7038|Latest estimated sensitivity of KAGRA (v201708) *APPROVED*]]
 * [[https://gwdoc.icrr.u-tokyo.ac.jp/cgi-bin/private/DocDB/ShowDocument?docid=9314|Document Tree for KAGRA Upgrade]]
 * [[https://gwdoc.icrr.u-tokyo.ac.jp/cgi-bin/private/DocDB/ShowDocument?docid=9537|Example sensitivity curves for the KAGRA upgrade]]
 * [[https://arxiv.org/abs/1804.09894|Particle swarm optimization of the sensitivity of a cryogenic gravitational wave detector]]
 * [[https://git.ligo.org/gwinc|gwinc]]

Future Planning Committee (FPC) working wiki

Overview

  • FPC is approved under KSC in Dec/2018 with the following initial members:

    • Sadakazu Haino(Chair), Chunglee Kim, Kentaro Komori, Yuta Michimura, Matteo Leonardi, Atsushi Nishizawa, Kentaro Somiya(PRDC chair)
  • Any comments/questions/requests from anyone are much appreciated and can be sent to the dedicated Mailing List
    • ksc-fpc _at_ icrr.u-tokyo.ac.jp

Starting points

LIGO-Virgo white papers

  • LIGO Instrument science white paper (2017): LIGO-T1700231–v2

  • LIGO Instrument science white paper (2018): LIGO-T1800133–v3

  • The LSC-Virgo White Paper on Gravitational Wave Data Analysis and Astrophysics (July 2017 edition): LIGO–T1700214-v4 VIR-0435D-17

  • The LSC-Virgo White Paper on Gravitational Wave Data Analysis and Astrophysics (Summer 2018 edition): LIGO–T1800058-v2 VIR-0119B-18

Draft of white paper

Meetings

White paper plan

  • Scientific motivation
    • Stellar-mass BBH
      • formation scenarios [Kohei Inayoshi]
      • population (parameter estimation) [Chunglee Kim]
      • host galaxy identification (sky localization) [Chunglee Kim]
    • Intermediate-mass BBH
      • formation scenarios [Kohei Inayoshi]
      • polulation (parameter estimation) [Chunglee Kim]
      • intermediate mass-ratio binaries [Norichika Sago]
    • BNS and BHNS
      • binary evolution [Chunglee Kim]
      • population (parameter estimation) [Chunglee Kim]
      • NS EOS and tidal deformation [Masaru Shibata]
      • NS remnant [Masaru Shibata]
      • kilonova [Masaru Shibata]
      • short gamma-ray burst [Kunihito Ioka]
    • Accereting binaries
      • low-mass x-ray binaries [Albert Kong]
    • Isolated NS
      • pulsar ellipticity (continuous) [Yousuke Itoh]
      • pulsar glitches and magnetar flare [Yasufumi Kojima]
      • stellar oscillation [Hajime Sotani]
    • Supernova
      • explosion models [Kei Kotake]
      • distinguishing explosion models (parameter estimation) [Kazuhiro Hayama]
      • polarization [Kazuhiro Hayama]
    • Cosmic string
      • burst signal [Kipp Cannon]
      • stochastic background [Kipp Cannon]
      • parameter estimation [Kipp Cannon]
    • Stochastic background
      • inflation models [Sachiko Kuroyanagi]
      • phase transition [Mitsuru Kakizaki?]
      • astrophysical background [??]
      • spectral shape (parameter estimation) [Sachiko Kuroyanagi]
    • Test of gravity
      • test of consistency with GR [Tjonnie G. F. Li]
      • generation mechanism [Takahiro Tanaka]
      • propagation effect [Atsushi Nishizawa]
      • polarization [Hiroki Takeda]
      • BH no-hair theorem [Hiroyuki Nakano]
    • Cosmology
      • Hubble constant measurement [Atsushi Nishizawa]
    • Multimessenger
      • fast radio burst [Kazumi Kashiyama]
      • long gamma-ray burst [Ryo Yamazaki]
    • Others
      • BH echo [Takahiro Tanaka]
  • Survey of the current technologies (price and readiness)
    • High power laser (how much power? stability?) [Haino?]
    • Parametric instabilty vs power, mitigation schemes [Michimura? KYamamoto?]
    • Squeezing (squeezing level, losses) [Matteo, Eleonora]
    • Filter cavity (losses) [Matteo, Eleonora]
    • Mirror (mass, coating, absorption) [Hirose?]
    • Suspending larger mirror [Okutomi?]
    • Suspension design for suspension thermal noise reduction (upper stage masses, sapphire blades, ribbon design) [Tomaru?]
    • Improving heat conductivity of sapphire fibers [Tomaru?]
    • Extreme RSE (high SRM reflectivity possible?) [Michimura?]
    • Technological noises at low frequencies [Michimura?]
    • Newtonian noise cancellation [Nishizawa?]
    • QND, quantum locking [KNagano]
    • Silicon mass
    • 1550nm/2000nm laser
    • Suspension point interferometer
    • Vertical suspension point interferometer
    • Thermal compensation system (BS/PRMs)
    • Balanced homodyne detector
    • Low-loss output faraday isolator
    • Suspension thermal noise cancellation using single loop wires
    • Khalili cavity
    • EPR entanglement
    • Phase camera
    • Double optical spring
    • Multi-carrier interferometer
    • Delay line
    • Local readout scheme
    • Intracavity squeezing
    • Intracavity signal amplifier
    • White light cavity
    • Speedmeter
    • Long SRC
    • Xylophone
    • Technologies to accerelate commissioning work (e.g. machine learning for auto alignment)
    • Technologies to improve stability
    • Technologies to improve duty cycle
    • Technologies to reduce calibration error
  • Study of new noise sources
    • Schumann resonance
    • Water gravity gradient noise
    • Acoustic gravity gradient noise
    • Thermal noise in non-equilibrium steady state
    • Gravity decoherence noise
  • Status of the current facility
    • TUN
    • FCL
    • VAC
    • CRY [Tomaru]
    • VIS [Takahashi, Aso]
    • MIR [Hirose]
    • LAS [Mio]
    • IOO [Kokeyama, Somiya]
    • AOS [Akutsu]
    • ...
  • Limits of the current facility
    • Mirror size in cryostat [KYamamoto?]
    • Filter cavity length [Matteo, Eleonora]
    • Computing resources [Chunglee?]
  • Trade-off studies
  • Time scale of plans: near-term(more realistic) and longer-term(some dreams)
  • Back up plans
  • R&Ds to be done : input to the PRDC

  • Budget estimate
  • Project execution plan

Schedule for the white paper

  • Work in progress draft to be presented @ KIW in Feb 2019 : Feedbacks from Virgo
  • First draft to be circulated @ April 2019 F2F
  • Final version to be put for approval @ Aug 2019 F2F

References

KAGRA/KSC/FPC (last edited 2022-11-01 22:48:21 by SadakazuHaino)