resonances in atomic and molecular continuum...
TRANSCRIPT
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Resonances in Atomic and Molecular
Continuum Processes
Isao Shimamura, RIKEN
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Peak-shaped resonance in e- - N2 scattering
measured by Brüche (1927)
e- - N2
electronic
resonance
N2-
Not exactly Lorentzian
due to coupling betw.
electronic & internuclear
motion
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Fine structure in the resonance profile due to the
coupling betw. electronic & internuclear N-N motion
but not exactly
e- - N2
R.E. Kennerly, Phys. Rev. A 21, 1876 (1980)
vibrational states
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Asymmetrically shaped photoabsorption spectra measured and theory formulated:
Measurement: H. Beutler, Zeit. f. Phys. 93, 177 (1935)
Reformulated and generalized: U. Fano, Phys. Rev. 124, 1866 (1961)
Xe spectrum betw. Xe+(2P3/2) and Xe+(2P1/2) thresholds
J. Res. Natl Inst. Stand. Tech. 110, 583 (2005) (Engl. transl.)
Theory: U. Fano, Nuovo Cim. 12, 154 (1935), directed by E. Fermi
Beutler-Fano profile
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review:
V L Sukhorukov et al.,
J. Phys. B 45,
092001 (2012)
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Fano’s profile
Ugo Fano (1912-2001)
(プロフィール,横顔)
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Beutler-Fano profile from Breit-Wigner one-level formula
for the phase shift : High-school mathematics
)2()()(cot -- rr EEE
Breit-Wigner one-level formula
reduced energy
for resonance at E Er – i /2
)()( EE rb
)(cot Eq b-
shape parameter
Beutler-Fano
profile
The variety of profiles stems from the interference
between the resonance and the background.
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Beutler-Fano profile for a resonance at E Er – i /2
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Original figure in U. Fano (1961)
U. Fano, Phys. Rev. 124, 1866 (1961)
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Ugo Fano’s theory
• isolated resonance for one open channel
• isolated resonance for more than one open channel
• overlapping resonances for one open channel
• NOT for overlapping resonances for more than one open channel
for any transition operator
U. Fano, Phys. Rev. 124, 1866 (1961)
Mixing betw. bound (F) and continuum (y) configurations
May be re-interpreted (similarly to Feshbach) as:
FF
FFFFFF
and ),()(
|| , |,|
EEEHHHQHQE
QEQHQHQHQQ
QrQQQ
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Stark effect: Perturbation by static electric field
without with electric field
electric field bound st.
resonance st.
field
ionization tunneling effect
FF
FFFFFF
and ),()(
|| , |,|
EEEHHHQHQE
QEQHQHQHQQ
QrQQQ
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Atomic/molecular physics is rich in resonances.
For example,
an infinite series of eigenstates of QHQ
coupled to continuum produces
an infinite series of Feshbach resonances.
FF
FFFFFF
and ),()(
|| , |,|
EEEHHHQHQE
QEQHQHQHQQ
QrQQQ
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Neutral atom A:
electron-ion interaction e
- - A(E)
Asymptotic Coulomb potential ∝ -a /r
quas
i-con
tinuu
m
cont
inuu
m
E intruder
sudden increase of mnl by 1 Coulomb channel
Infinite series of bound Rydberg states
Enl E - [2 (n - mnl )2]-1 a.u.
mnl quantum defect:
slowly varying with n (or Enl)
resonance-like behavior
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Coupled Coulomb channels
Multichannel Quantum Defect Theory:
Theory similar to multichannel scattering
theory leads to elucidation of the regularity
in the bound and resonance Rydberg series.
g '
g
reso
nanc
e st
ates
intruder
E
E
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Photoabsorption spectra of He atom
60 eV
(60 eV < hn < 78 eV)
75.5 eV 77.5 eV
N = 2
N = 2
N = 2
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Energy diagram of helium
1-electron excited } (1s2p)
} (1s2s)
1-electron transitions 1s2 →1snp by 1-photon absorption 1s2
1-electron transition 1s2 →1s p by 1-photon absorption
photoionization
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Atomic/molecular physics is rich in resonances.
infinite series of eigenstates of QHQ
due to the long-range Coulomb potential -a /r
due to over-critical attractive dipole potential -b /r2
→ infinite series of resonances by coupling with continuum
] ,[ ),()(
][ , , |,|
FF
FFFF
EEEQEQH
HHHQHQHQQ
QrQQ
Infinite series of bound states are supported by a potential
with an asymptotic form ~ -b /r2 for b >b l
for an angular-momentum-dependent critical value b l
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e- + H(n l ) channels
Asymptotic dipole potential couples nl and nl channels
with l l ±1 with a common channel energy kn2
(common because of the sublevel degeneracy).
→ Diagonalization of the asymptotic potential matrix r-2
results in diagonal dipole potentials r-2,
i.e., in decoupled single-channel dipole potentials.
If overcritical, they support infinite series of bound states.
e-
e-
p
r2
r
r12 q
cos 2 12 qrrr ~
]cos[ 2
2
1
1
12 qrrrr --- - ~
H- system
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Other dipole-supported series of states
Electron (or positron) bound by a polar molecule
having a dipole moment m V(r) ∝ m cosc / r 2
Efimov states bound by a dipole potential
in terms of the hyper radius
c
m r
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Types of resonance states
in atomic/molecular systems
• autoionizing Rydberg states: series coupling
• two or more electrons excited
• inner-shell electron(s) excited
• Feshbach resonances with respect to vibrational excitation
• electronically & vibrationally excited molecules
• predissociating states
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Vibrationally excited Rydberg states
R
R
V (R)
A B AB*
AB+ e-
AB
AB
internuclear distance
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Vibrational predissociation
internuclear distance
ener
gy
Nonadiabatic coupling of a bonding adiabatic
state with a repulsive adiabatic state turns
vibrational states into dissociative states.
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Vibrational predissociation
internuclear distance
ener
gy
An adiabatic electronic state turns into a replusive
diabatic state by nonadiabatic coupling with a
lower adiabatic electronic state.
R
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Atomic and molecular processes • low-E electron impact on atoms
compound-state resonances
• low-E electron impact on molecules
compound-state resonances decaying into
different arrangement channels
• high-E electron impact on atoms/molecules
excitation of the target into resonance states
• low E ion-atom, atom-atom collisions
• atom-molecule, molecule-molecule collisions
direct and reactive processes
• high-E ion-atom collisions
• single-photon absorption
two(or more)-electron excited states
Auger processes (inner-shell excitation)
• multiphoton absorption
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Standard computational methods for resonances
• Direct calculation of Er - i /2
→ No observable physical quantities
e.g.: complex coordinate scaling r → r eiq
For molecules, exterior complex scaling, or scaling
only outside of a sphere enclosing the molecule
• S - or K- matrix calculation → resonance information
Coupled-channel equations
defined in terms of the target and/or projectile states
or of the adiabatic states of the whole system
R-matrix method
Kohn or Schwinger variational method
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R-matrix method: Concept
internal region
external region
Example: electron-molecule collision e- - M
molecule
quantum-chemistry-like calculation
Internal (r < a)
External (r > a)
→ yy-1 of channel wave func. at r a a
coupled-channel calculation with
of the total system M-
local potentials (multipole explansion)
channel wave funcs. connected smoothly at r a
M
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R-matrix method: General computer codes
• Electron-atom (ion) and positron-atom (ion) collisions
automatic search / fitting of resonances
• Electron-molecule and positron-molecule collisions
• Atomic and molecular bound-state calculations
• Photoionization of atoms and molecules
• Multiphoton processes:
time-independent and time-dependent approaches
P. G. Burke, R-matrix theory of atomic collisions, (Springer, Heidelberg, 2011)
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Coordinate system
• independent-particle coordinates
→ Jacobi coordinates
• complex coordinates
• hyperspherical (HS) coordinates
for few-body systems
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Hyperspherical coordinates: Two-electron systems
r2
r1
r
a
hyper radius r , hyper angle a
r1
r2
N
e- For general three-body systems:
HS coordinates are defined
in terms of the Jacobi coordinates.
(r1, r2) → (r, a) polar coordinates
(r1, r2) → (r, W) (r, a, r1, r2) ^ ^
Extension for N -body systems:
0 r < , others: angular coord.
e-
r12
Only a single coordinate
extends to infinity.
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Hyperspherical coordinates: General 3-body systems
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Applications of hyperspherical coordinates
• Efimov states
dipole-supported states in terms of r
• Coulomb three-body systems
complete breakup expressible by r →
asymptotic form for 3-body breakup known
• HS coupled-channel equations in r
• Concept of new correlation quantum numbers
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Coulomb three-body breakup
]2ln})({exp[))((
]channel initial[ ),(
epeHe
2/153
, ,211221
rrr WW-
---
iiif
rrrrr
]2ln)2( [ exp )(
)}]2(sin2ln{)2( [ exp )(
)2(~
1
2
2
rkkirikrf
rkkizik
rm
r
q
qy
-
-
r
1
12
1
2
1
1122121 ][),ˆ,ˆ()( --- --W rrrVVVrar rr
For scattering by V(r) with asymptotic form
For breakup
R.K. Peterkop, Opt. Spectrosc. 13, 87 (1962)
M.R.H. Rudge and M.J. Seaton, Proc. R. Phys. Soc. 283, 262 (1965)
M.R.H. Rudge, Rev. Mod. Phys. 40, 564 (1968)
Review: McCurdy et al., J. Phys. B 37, R137 (2004)
22 )2( mE total energy
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Hyperspherical coupled-channel equations
WFW
WW
W
-
)( )(),(
2)(),( ,
),()2sin(),(
22
12/5
21
nnu
VTHHEH
rry
rryy
ryar
r
rr
coupled-channel eqs.
I. Expansion in terms of hyperspherical harmonics
II. Expansion in terms of adiabatic states → converges rapidly
)( )()(2 WFWFW nnn
);()( );( ])([ 22 rrrr WFWFW nnn UV
Un(r) : similar to molecular potential energy curves
→ visual understanding of the dynamics
● single-channel (adiabatic) approximation already reasonable
● concept of new electron-correlation quantum numbers
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The success of
the hyperspheical coordinate method
owes much
to the adiabatic expansion.
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Vibrational excitation in electron-molecule collisions
Vibrational motion (nuclear motion) normally
hard to excite by the light e- impact.
e- AB(v) → AB- → AB(v ’) e-
Resonances greatly enhance the cross section.
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Vibrational excitation in electron-molecule collisions
Resonance
Non-resonance
v 01
Vibrational motion (nuclear motion) normally hard to excite by the light e- impact.
If the interaction time is long,
however, the energy transfer
from e- to vibration motion
can be efficient.
Resonance enhancement
of vibrational excitation by
temporary electron capture
e- CO
e- AB(v) → AB(v ’) e-
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e- - O2 collisions (compound-state limit)
60q
v 0 v’ e- O2
v’ 1
v’ 2
v’ 3
v’ 4
temporary O2
- (v”)
equally spaced peaks
at common positions irrespective of v ’
fine structure due to different v”
v”
Incident electron energy (eV)
e- O2(v) O2-(v”) e- O2(v’)
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Vibrational excitation via compound-state resonance
R
R
V (R)
A B
AB
resonance st.
Er
AB-
AB(v ) + e-(Er ) → AB-(v) → AB(v) + e-
equally spaced
vibrational levels v
v= 0
v =1 v =0
v=1
Resonance energy Er of
the incident electron is
common to all v v =2
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e- - H2 collisions (impulse limit)
0 v v 0 v’
v’ 3
v’ 2
v’ 1
v’ 4
v’ 5
v’ 6
Incident electron energy (eV)
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Resonance lifetime vs. vibrational period
tvib : vibrational period (time for one vibration) @ 10-14 s
tres : resonance lifetime (@ collision time)
tres >> tvib enough time for the resonance state to develop
well-defined vibrational levels
tres << tvib little time for developing resonance vib. levels,
i.e., almost no nuclear motion during the collision
→ adiabatic approximation for scatt. amplitude
superposition of resonances with varying Er(R), (R)
)();()()( RRFRf if vv qq
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Boomerang model
tres @ tvib
Only one or a few vibrations before the resonance decays.
Not enough time for developing vibrational states of AB-.
Time enough only for forming a standing wave: wave number kAB
e-(E) AB(v) AB-(kAB) e- AB(v’)
Scattering amplitude essentially determined by the overlap
, which oscillates with kAB = kAB(E).
irregular oscillations with E
)( ),( ABABAB k- v'
A B
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e- - N2 collisions (boomerang resonance)
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Competition with dissociative channels
Dissociative electron attachment occurs
almost only via resonances.
e- AB(v) → AB- → AB(v ’) e-
→ A B e-
→ A B- dissociative attachment
dissociation
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AB + e → AB-
Coupling with the dissociative mode
R
R
dissociation or
V (R)
A B AB-
autodetachment
e
stabilization point
AB
AB-
AB + e → A+Bー
dissociative attachment
competing with
autodetachment of an electron
A+B-
→ A + B + e
resonance state
A+B-
dissociative attachment
dissociation
B-
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Resonance state may change its geometry.
q
CO2-
CO2
Linear molecule may be excited in the bending mode
or in the asymmetric stretching mode.
C O O
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Geometry dependence of the resonance parameters
RESCIGNO, ISAACS, OREL, MEYER, AND McCURDY, PHYS. REV. A 65 032716 (2002)
Complex 2A1 resonance energy of CO2-, in units of hartrees, as a function of symmetric-
stretch distance, in units of bohrs, and bend angle, in degrees. Left panel shows the real
part of the energy surface and the right panel shows the corresponding width.
q R R
Er
R R
q q
CO2
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Resonance information
from the S matrix
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Breit-Wigner one-level formula for the phase shift
22 )2()(
2 ,
2 cot , 1
-
-- -
r
rrrbr
EEdE
dEE
convenient for locating resonances and for resonance fitting,
but more convenient is d (E)/dE
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Single-channel N overlapping resonances
-
--
-
NNr
N
r
br
ELEEdE
dEE
1122
1
)()2()(
2 ,
2 cot
,
1
n
n
n nn
n
n n
n
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Breit-Wigner one-level formula: Single channel
For the phase shift
)()2()(
2 ,
2 cot
background :resonance : ,
22
1 EL
EEdE
dEE
r
rrr
brbr
-
--
-
For the S matrix
bbbb i
r
ii
r
rii eiEE
iee
iEE
iEEeeS
)2(
1
)2(
)2(2
--
-
--
-
pole at E Er- i /2, S*S SS* 1 for real E > 0
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Parameter fitting
Breit-Wigner one-level formula for (E):
convenient for locating resonances and for resonance fitting
but more convenient is d (E)/dE
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Single-channel overlapping resonances
For the phase shift
For the S matrix
--
-
--
-
n
nn
n
n
nn
nn bbbb iiiie
iEE
iee
iEE
iEEeS
)2(
1
)2(
)2(
poles at E En- i n /2, S*S SS* 1 for real E > 0
-
--
-
n
n
n nn
n
n n
n
)()2()(
2 ,
2 cot
background :resonance : ,
22
1 EL
EEdE
dEE rr
brbr
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i
pole at E Er- i /2
unitary for real E > 0 → flux conservation
symmetric → time reversal
Breit-Wigner one-level formula: Multichannel
(unitary & symmetric)
i decay rate to each channel
T
b UUS background S matrix
total width
U unitary matrix, I unit matrix
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Breit-Wigner formula for multichannel scattering
Diagonalize S as OSOT , i j i j exp(2ihi).
Define eigenphase sum Si hi .
Then, this satisfies the same Breit-Wigner formula
as the single-channel phase shift (Weidenmüller 1967).
d /dE
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Total energy (au)
Total energy (au)
Total energy (au) -0.088
-0.088
-0.089
-0.089
-0.088 -0.089
He(1Po)
eigenphase sum
In fact,
5 Lorentzians were extracted by
another technique !
d
/dE
d /dE
twice sudden increase
3 Lorentzians
Aiba, Igarashi & Shimamura, J. Phys. B 40, F9 (2007)
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Eigenvalues of the time-delay matrix for He(1Po)
Aiba, Igarashi & Shimamura, J. Phys. B 40, F9 (2007)
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Time delay due to scattering
Single-channel time delay: Wave packet of outgoing spherical wave is delayed by the time
t
+ b
compared with no scattering. For a Breit-Wigner resonance
Multichannel time-delay matrix (proposed by F.T. Smith, 1960)
+ b
being related to eigenphase sum
d
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He(1Po)
eigenphase sum
Q-matrix eigenvalues qi
5 Lorentzians Ln (E) avoiding each other
Tr Q d /dE
Tr Q fitted to Sn Ln
with 5 Lorentzians
and background
Complicated overlapping
/
p
Other eigenvalues @ 0
Aiba, Igarashi & Shimamura, J. Phys. B 40, F9 (2007)
resonances resolved
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Multichannel overlapping resonances
that is explicitly unitary and symmetric and that has poles at
E En - i n /2, n 1, …, N.
No S - matrix representation is known
Simonius (1974) proposed a representation
that has resonance poles and is unitary,
but not explicitly symmetric.
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Simonius representation of the S matrix
)2(
1 ,
1
Sim
nn
nnnn
n
n--
-
iEE
iSUSUS T
N gg
†
elements of the vector gn : resonance parameters
resonance-order dependent
not explicitly symmetric
Can be made symmetric, in principle, by choosing gn.
not wrong, just inconvenient for application purposes,
but convenient for theoretical formulation purpose
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N eigenvectors corresponding to the resonance eigenvalues
define the N - dimentional resonance eigenchannel space.
Resonances decay only into this N - dimentional channel space,
whereas they decay into all the physical channels and into all the eigenchannels of the S matrix.
Separation theorem for N overlapping resonances
I. Shimamura, J. Phys. B 44, 201002 (2011)
N eigenvalues qi (E) of the Q matrix form
N Lorentzian peaks avoiding each other at the crossing points,
the other eigenvalules being quite small.
Proof using the Simonius representation of resonance S matrix
]background small[)()()(Tr n
n ELEqEQi
iAlso, small background
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Importance of the time-delay matrix eigenvalues
Useful for
• Spotting resonances otherwise hidden
• Resonance fitting
• Resolving overlapping resonances
• Separating out the resonance channel space
from the whole channel space
Resonances clearly stand out against background.
Overlapping resonances can be easily resolved.
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Strong background cancelling time dealy: e- + Ps
Total energy (10-2 au) Total energy (10-2 au)
Total energy (10-2 au)
above Ps(n=3) threshold
Igarashi and Shimamura, J. Phys. B 37, 4221 (2004)
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+ b
Strong dipole background
b
d b /dE
Negative time delay due to the dipole background
Dipole potential due to linear Stark effect
The background b diverges toward the threshold.
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Shimamura, Wakimoto & Igarashi, Phys. Rev. A 80, 032708 (2009)
Weak resonance hidden behind a stronger one